// SPDX-License-Identifier: GPL-2.0-or-later /* Zebra MPLS code * Copyright (C) 2013 Cumulus Networks, Inc. */ #include #include "prefix.h" #include "table.h" #include "memory.h" #include "command.h" #include "if.h" #include "log.h" #include "sockunion.h" #include "linklist.h" #include "frrevent.h" #include "workqueue.h" #include "prefix.h" #include "routemap.h" #include "stream.h" #include "nexthop.h" #include "termtable.h" #include "lib/json.h" #include "zebra/rib.h" #include "zebra/rt.h" #include "zebra/interface.h" #include "zebra/zserv.h" #include "zebra/zebra_router.h" #include "zebra/redistribute.h" #include "zebra/debug.h" #include "zebra/zebra_vrf.h" #include "zebra/zebra_mpls.h" #include "zebra/zebra_srte.h" #include "zebra/zebra_errors.h" DEFINE_MTYPE_STATIC(ZEBRA, LSP, "MPLS LSP object"); DEFINE_MTYPE_STATIC(ZEBRA, FEC, "MPLS FEC object"); DEFINE_MTYPE_STATIC(ZEBRA, NHLFE, "MPLS nexthop object"); bool mpls_enabled; bool mpls_pw_reach_strict; /* Strict reachability checking */ /* static function declarations */ static void fec_evaluate(struct zebra_vrf *zvrf); static uint32_t fec_derive_label_from_index(struct zebra_vrf *vrf, struct zebra_fec *fec); static int lsp_install(struct zebra_vrf *zvrf, mpls_label_t label, struct route_node *rn, struct route_entry *re); static int lsp_uninstall(struct zebra_vrf *zvrf, mpls_label_t label); static int fec_change_update_lsp(struct zebra_vrf *zvrf, struct zebra_fec *fec, mpls_label_t old_label); static int fec_send(struct zebra_fec *fec, struct zserv *client); static void fec_update_clients(struct zebra_fec *fec); static void fec_print(struct zebra_fec *fec, struct vty *vty); static struct zebra_fec *fec_find(struct route_table *table, struct prefix *p); static struct zebra_fec *fec_add(struct route_table *table, struct prefix *p, mpls_label_t label, uint32_t flags, uint32_t label_index); static int fec_del(struct zebra_fec *fec); static unsigned int label_hash(const void *p); static bool label_cmp(const void *p1, const void *p2); static int nhlfe_nexthop_active_ipv4(struct zebra_nhlfe *nhlfe, struct nexthop *nexthop); static int nhlfe_nexthop_active_ipv6(struct zebra_nhlfe *nhlfe, struct nexthop *nexthop); static int nhlfe_nexthop_active(struct zebra_nhlfe *nhlfe); static void lsp_select_best_nhlfe(struct zebra_lsp *lsp); static void lsp_uninstall_from_kernel(struct hash_bucket *bucket, void *ctxt); static void lsp_schedule(struct hash_bucket *bucket, void *ctxt); static wq_item_status lsp_process(struct work_queue *wq, void *data); static void lsp_processq_del(struct work_queue *wq, void *data); static void lsp_processq_complete(struct work_queue *wq); static int lsp_processq_add(struct zebra_lsp *lsp); static void *lsp_alloc(void *p); /* Check whether lsp can be freed - no nhlfes, e.g., and call free api */ static void lsp_check_free(struct hash *lsp_table, struct zebra_lsp **plsp); /* Free lsp; sets caller's pointer to NULL */ static void lsp_free(struct hash *lsp_table, struct zebra_lsp **plsp); static char *nhlfe2str(const struct zebra_nhlfe *nhlfe, char *buf, int size); static char *nhlfe_config_str(const struct zebra_nhlfe *nhlfe, char *buf, int size); static int nhlfe_nhop_match(struct zebra_nhlfe *nhlfe, enum nexthop_types_t gtype, const union g_addr *gate, ifindex_t ifindex); static struct zebra_nhlfe *nhlfe_find(struct nhlfe_list_head *list, enum lsp_types_t lsp_type, enum nexthop_types_t gtype, const union g_addr *gate, ifindex_t ifindex); static struct zebra_nhlfe * nhlfe_add(struct zebra_lsp *lsp, enum lsp_types_t lsp_type, enum nexthop_types_t gtype, const union g_addr *gate, ifindex_t ifindex, vrf_id_t vrf_id, uint8_t num_labels, const mpls_label_t *labels, bool is_backup); static int nhlfe_del(struct zebra_nhlfe *nhlfe); static void nhlfe_free(struct zebra_nhlfe *nhlfe); static void nhlfe_out_label_update(struct zebra_nhlfe *nhlfe, struct mpls_label_stack *nh_label); static int mpls_lsp_uninstall_all(struct hash *lsp_table, struct zebra_lsp *lsp, enum lsp_types_t type); static int mpls_static_lsp_uninstall_all(struct zebra_vrf *zvrf, mpls_label_t in_label); static void nhlfe_print(struct zebra_nhlfe *nhlfe, struct vty *vty, const char *indent); static void lsp_print(struct vty *vty, struct zebra_lsp *lsp); static void mpls_lsp_uninstall_all_type(struct hash_bucket *bucket, void *ctxt); static void mpls_ftn_uninstall_all(struct zebra_vrf *zvrf, int afi, enum lsp_types_t lsp_type); static int lsp_znh_install(struct zebra_lsp *lsp, enum lsp_types_t type, const struct zapi_nexthop *znh); static int lsp_backup_znh_install(struct zebra_lsp *lsp, enum lsp_types_t type, const struct zapi_nexthop *znh); /* Static functions */ /* * Handle failure in LSP install, clear flags for NHLFE. */ static void clear_nhlfe_installed(struct zebra_lsp *lsp) { struct zebra_nhlfe *nhlfe; struct nexthop *nexthop; frr_each_safe(nhlfe_list, &lsp->nhlfe_list, nhlfe) { nexthop = nhlfe->nexthop; if (!nexthop) continue; UNSET_FLAG(nhlfe->flags, NHLFE_FLAG_INSTALLED); UNSET_FLAG(nexthop->flags, NEXTHOP_FLAG_FIB); } frr_each_safe(nhlfe_list, &lsp->backup_nhlfe_list, nhlfe) { nexthop = nhlfe->nexthop; if (!nexthop) continue; UNSET_FLAG(nhlfe->flags, NHLFE_FLAG_INSTALLED); UNSET_FLAG(nexthop->flags, NEXTHOP_FLAG_FIB); } } /* * Install label forwarding entry based on labeled-route entry. */ static int lsp_install(struct zebra_vrf *zvrf, mpls_label_t label, struct route_node *rn, struct route_entry *re) { struct hash *lsp_table; struct zebra_ile tmp_ile; struct zebra_lsp *lsp; struct zebra_nhlfe *nhlfe; struct nexthop *nexthop; enum lsp_types_t lsp_type; char buf[BUFSIZ]; int added, changed; /* Lookup table. */ lsp_table = zvrf->lsp_table; if (!lsp_table) return -1; lsp_type = lsp_type_from_re_type(re->type); added = changed = 0; /* Locate or allocate LSP entry. */ tmp_ile.in_label = label; lsp = hash_get(lsp_table, &tmp_ile, lsp_alloc); /* For each active nexthop, create NHLFE. Note that we deliberately skip * recursive nexthops right now, because intermediate hops won't * understand * the label advertised by the recursive nexthop (plus we don't have the * logic yet to push multiple labels). */ for (nexthop = re->nhe->nhg.nexthop; nexthop; nexthop = nexthop->next) { /* Skip inactive and recursive entries. */ if (!CHECK_FLAG(nexthop->flags, NEXTHOP_FLAG_ACTIVE)) continue; if (CHECK_FLAG(nexthop->flags, NEXTHOP_FLAG_RECURSIVE)) continue; nhlfe = nhlfe_find(&lsp->nhlfe_list, lsp_type, nexthop->type, &nexthop->gate, nexthop->ifindex); if (nhlfe) { /* Clear deleted flag (in case it was set) */ UNSET_FLAG(nhlfe->flags, NHLFE_FLAG_DELETED); if (nexthop_labels_match(nhlfe->nexthop, nexthop)) /* No change */ continue; if (IS_ZEBRA_DEBUG_MPLS) { nhlfe2str(nhlfe, buf, BUFSIZ); zlog_debug( "LSP in-label %u type %d nexthop %s out-label changed", lsp->ile.in_label, lsp_type, buf); } /* Update out label, trigger processing. */ nhlfe_out_label_update(nhlfe, nexthop->nh_label); SET_FLAG(nhlfe->flags, NHLFE_FLAG_CHANGED); changed++; } else { /* Add LSP entry to this nexthop */ nhlfe = nhlfe_add( lsp, lsp_type, nexthop->type, &nexthop->gate, nexthop->ifindex, nexthop->vrf_id, nexthop->nh_label->num_labels, nexthop->nh_label->label, false /*backup*/); if (!nhlfe) return -1; if (IS_ZEBRA_DEBUG_MPLS) { nhlfe2str(nhlfe, buf, BUFSIZ); zlog_debug( "Add LSP in-label %u type %d nexthop %s out-label %u", lsp->ile.in_label, lsp_type, buf, nexthop->nh_label->label[0]); } lsp->addr_family = NHLFE_FAMILY(nhlfe); /* Mark NHLFE as changed. */ SET_FLAG(nhlfe->flags, NHLFE_FLAG_CHANGED); added++; } } /* Queue LSP for processing if necessary. If no NHLFE got added (special * case), delete the LSP entry; this case results in somewhat ugly * logging. */ if (added || changed) { if (lsp_processq_add(lsp)) return -1; } else { lsp_check_free(lsp_table, &lsp); } return 0; } /* * Uninstall all non-static NHLFEs of a label forwarding entry. If all * NHLFEs are removed, the entire entry is deleted. */ static int lsp_uninstall(struct zebra_vrf *zvrf, mpls_label_t label) { struct hash *lsp_table; struct zebra_ile tmp_ile; struct zebra_lsp *lsp; struct zebra_nhlfe *nhlfe; char buf[BUFSIZ]; /* Lookup table. */ lsp_table = zvrf->lsp_table; if (!lsp_table) return -1; /* If entry is not present, exit. */ tmp_ile.in_label = label; lsp = hash_lookup(lsp_table, &tmp_ile); if (!lsp || (nhlfe_list_first(&lsp->nhlfe_list) == NULL)) return 0; /* Mark NHLFEs for delete or directly delete, as appropriate. */ frr_each_safe(nhlfe_list, &lsp->nhlfe_list, nhlfe) { /* Skip static NHLFEs */ if (nhlfe->type == ZEBRA_LSP_STATIC) continue; if (IS_ZEBRA_DEBUG_MPLS) { nhlfe2str(nhlfe, buf, BUFSIZ); zlog_debug( "Del LSP in-label %u type %d nexthop %s flags 0x%x", label, nhlfe->type, buf, nhlfe->flags); } if (CHECK_FLAG(nhlfe->flags, NHLFE_FLAG_SELECTED)) { UNSET_FLAG(nhlfe->flags, NHLFE_FLAG_CHANGED); SET_FLAG(nhlfe->flags, NHLFE_FLAG_DELETED); } else { nhlfe_del(nhlfe); } } /* Queue LSP for processing, if needed, else delete. */ if (CHECK_FLAG(lsp->flags, LSP_FLAG_INSTALLED)) { if (lsp_processq_add(lsp)) return -1; } else { lsp_check_free(lsp_table, &lsp); } return 0; } /* * This function is invoked upon change to label block configuration; it * will walk all registered FECs with label-index and appropriately update * their local labels and trigger client updates. */ static void fec_evaluate(struct zebra_vrf *zvrf) { struct route_node *rn; struct zebra_fec *fec; uint32_t old_label, new_label; int af; for (af = AFI_IP; af < AFI_MAX; af++) { if (zvrf->fec_table[af] == NULL) continue; for (rn = route_top(zvrf->fec_table[af]); rn; rn = route_next(rn)) { if ((fec = rn->info) == NULL) continue; /* Skip configured FECs and those without a label index. */ if (fec->flags & FEC_FLAG_CONFIGURED || fec->label_index == MPLS_INVALID_LABEL_INDEX) continue; /* Save old label, determine new label. */ old_label = fec->label; new_label = zvrf->mpls_srgb.start_label + fec->label_index; if (new_label >= zvrf->mpls_srgb.end_label) new_label = MPLS_INVALID_LABEL; /* If label has changed, update FEC and clients. */ if (new_label == old_label) continue; if (IS_ZEBRA_DEBUG_MPLS) zlog_debug( "Update fec %pRN new label %u upon label block", rn, new_label); fec->label = new_label; fec_update_clients(fec); /* Update label forwarding entries appropriately */ fec_change_update_lsp(zvrf, fec, old_label); } } } /* * Derive (if possible) and update the local label for the FEC based on * its label index. The index is "acceptable" if it falls within the * globally configured label block (SRGB). */ static uint32_t fec_derive_label_from_index(struct zebra_vrf *zvrf, struct zebra_fec *fec) { uint32_t label; if (fec->label_index != MPLS_INVALID_LABEL_INDEX && zvrf->mpls_srgb.start_label && ((label = zvrf->mpls_srgb.start_label + fec->label_index) < zvrf->mpls_srgb.end_label)) fec->label = label; else fec->label = MPLS_INVALID_LABEL; return fec->label; } /* * There is a change for this FEC. Install or uninstall label forwarding * entries, as appropriate. */ static int fec_change_update_lsp(struct zebra_vrf *zvrf, struct zebra_fec *fec, mpls_label_t old_label) { struct route_table *table; struct route_node *rn; struct route_entry *re; afi_t afi; /* Uninstall label forwarding entry, if previously installed. */ if (old_label != MPLS_INVALID_LABEL && old_label != MPLS_LABEL_IMPLICIT_NULL) lsp_uninstall(zvrf, old_label); /* Install label forwarding entry corr. to new label, if needed. */ if (fec->label == MPLS_INVALID_LABEL || fec->label == MPLS_LABEL_IMPLICIT_NULL) return 0; afi = family2afi(PREFIX_FAMILY(&fec->rn->p)); table = zebra_vrf_table(afi, SAFI_UNICAST, zvrf_id(zvrf)); if (!table) return 0; /* See if labeled route exists. */ rn = route_node_lookup(table, &fec->rn->p); if (!rn) return 0; RNODE_FOREACH_RE (rn, re) { if (CHECK_FLAG(re->flags, ZEBRA_FLAG_SELECTED)) break; } if (!re || !zebra_rib_labeled_unicast(re)) return 0; if (lsp_install(zvrf, fec->label, rn, re)) return -1; return 0; } /* * Inform about FEC to a registered client. */ static int fec_send(struct zebra_fec *fec, struct zserv *client) { struct stream *s; struct route_node *rn; rn = fec->rn; /* Get output stream. */ s = stream_new(ZEBRA_MAX_PACKET_SIZ); zclient_create_header(s, ZEBRA_FEC_UPDATE, VRF_DEFAULT); stream_putw(s, rn->p.family); stream_put_prefix(s, &rn->p); stream_putl(s, fec->label); stream_putw_at(s, 0, stream_get_endp(s)); return zserv_send_message(client, s); } /* * Update all registered clients about this FEC. Caller should've updated * FEC and ensure no duplicate updates. */ static void fec_update_clients(struct zebra_fec *fec) { struct listnode *node; struct zserv *client; for (ALL_LIST_ELEMENTS_RO(fec->client_list, node, client)) { if (IS_ZEBRA_DEBUG_MPLS) zlog_debug("Update client %s", zebra_route_string(client->proto)); fec_send(fec, client); } } /* * Print a FEC-label binding entry. */ static void fec_print(struct zebra_fec *fec, struct vty *vty) { struct route_node *rn; struct listnode *node; struct zserv *client; char buf[BUFSIZ]; rn = fec->rn; vty_out(vty, "%pRN\n", rn); vty_out(vty, " Label: %s", label2str(fec->label, 0, buf, BUFSIZ)); if (fec->label_index != MPLS_INVALID_LABEL_INDEX) vty_out(vty, ", Label Index: %u", fec->label_index); vty_out(vty, "\n"); if (!list_isempty(fec->client_list)) { vty_out(vty, " Client list:"); for (ALL_LIST_ELEMENTS_RO(fec->client_list, node, client)) vty_out(vty, " %s(fd %d)", zebra_route_string(client->proto), client->sock); vty_out(vty, "\n"); } } /* * Locate FEC-label binding that matches with passed info. */ static struct zebra_fec *fec_find(struct route_table *table, struct prefix *p) { struct route_node *rn; apply_mask(p); rn = route_node_lookup(table, p); if (!rn) return NULL; route_unlock_node(rn); return (rn->info); } /* * Add a FEC. This may be upon a client registering for a binding * or when a binding is configured. */ static struct zebra_fec *fec_add(struct route_table *table, struct prefix *p, mpls_label_t label, uint32_t flags, uint32_t label_index) { struct route_node *rn; struct zebra_fec *fec; apply_mask(p); /* Lookup (or add) route node.*/ rn = route_node_get(table, p); if (!rn) return NULL; fec = rn->info; if (!fec) { fec = XCALLOC(MTYPE_FEC, sizeof(struct zebra_fec)); rn->info = fec; fec->rn = rn; fec->label = label; fec->client_list = list_new(); } else route_unlock_node(rn); /* for the route_node_get */ fec->label_index = label_index; fec->flags = flags; return fec; } /* * Delete a FEC. This may be upon the last client deregistering for * a FEC and no binding exists or when the binding is deleted and there * are no registered clients. */ static int fec_del(struct zebra_fec *fec) { list_delete(&fec->client_list); fec->rn->info = NULL; route_unlock_node(fec->rn); XFREE(MTYPE_FEC, fec); return 0; } /* * Hash function for label. */ static unsigned int label_hash(const void *p) { const struct zebra_ile *ile = p; return (jhash_1word(ile->in_label, 0)); } /* * Compare 2 LSP hash entries based on in-label. */ static bool label_cmp(const void *p1, const void *p2) { const struct zebra_ile *ile1 = p1; const struct zebra_ile *ile2 = p2; return (ile1->in_label == ile2->in_label); } /* * Check if an IPv4 nexthop for a NHLFE is active. Update nexthop based on * the passed flag. * NOTE: Looking only for connected routes right now. */ static int nhlfe_nexthop_active_ipv4(struct zebra_nhlfe *nhlfe, struct nexthop *nexthop) { struct route_table *table; struct prefix_ipv4 p; struct route_node *rn; struct route_entry *match; struct nexthop *match_nh; table = zebra_vrf_table(AFI_IP, SAFI_UNICAST, nexthop->vrf_id); if (!table) return 0; /* Lookup nexthop in IPv4 routing table. */ memset(&p, 0, sizeof(p)); p.family = AF_INET; p.prefixlen = IPV4_MAX_BITLEN; p.prefix = nexthop->gate.ipv4; rn = route_node_match(table, (struct prefix *)&p); if (!rn) return 0; route_unlock_node(rn); /* Locate a valid connected route. */ RNODE_FOREACH_RE (rn, match) { if (CHECK_FLAG(match->status, ROUTE_ENTRY_REMOVED) || !CHECK_FLAG(match->flags, ZEBRA_FLAG_SELECTED)) continue; for (match_nh = match->nhe->nhg.nexthop; match_nh; match_nh = match_nh->next) { if ((match->type == ZEBRA_ROUTE_CONNECT || match->type == ZEBRA_ROUTE_LOCAL) || nexthop->ifindex == match_nh->ifindex) { nexthop->ifindex = match_nh->ifindex; return 1; } } } return 0; } /* * Check if an IPv6 nexthop for a NHLFE is active. Update nexthop based on * the passed flag. * NOTE: Looking only for connected routes right now. */ static int nhlfe_nexthop_active_ipv6(struct zebra_nhlfe *nhlfe, struct nexthop *nexthop) { struct route_table *table; struct prefix_ipv6 p; struct route_node *rn; struct route_entry *match; table = zebra_vrf_table(AFI_IP6, SAFI_UNICAST, nexthop->vrf_id); if (!table) return 0; /* Lookup nexthop in IPv6 routing table. */ memset(&p, 0, sizeof(p)); p.family = AF_INET6; p.prefixlen = IPV6_MAX_BITLEN; p.prefix = nexthop->gate.ipv6; rn = route_node_match(table, (struct prefix *)&p); if (!rn) return 0; route_unlock_node(rn); /* Locate a valid connected route. */ RNODE_FOREACH_RE (rn, match) { if (((match->type == ZEBRA_ROUTE_CONNECT || match->type == ZEBRA_ROUTE_LOCAL)) && !CHECK_FLAG(match->status, ROUTE_ENTRY_REMOVED) && CHECK_FLAG(match->flags, ZEBRA_FLAG_SELECTED)) break; } if (!match || !match->nhe->nhg.nexthop) return 0; nexthop->ifindex = match->nhe->nhg.nexthop->ifindex; return 1; } /* * Check the nexthop reachability for a NHLFE and return if valid (reachable) * or not. * NOTE: Each NHLFE points to only 1 nexthop. */ static int nhlfe_nexthop_active(struct zebra_nhlfe *nhlfe) { struct nexthop *nexthop; struct interface *ifp; struct zebra_ns *zns; nexthop = nhlfe->nexthop; if (!nexthop) // unexpected return 0; /* Check on nexthop based on type. */ switch (nexthop->type) { case NEXTHOP_TYPE_IFINDEX: /* * Lookup if this type is special. The * NEXTHOP_TYPE_IFINDEX is a pop and * forward into a different table for * processing. As such this ifindex * passed to us may be a VRF device * which will not be in the default * VRF. So let's look in all of them */ zns = zebra_ns_lookup(NS_DEFAULT); ifp = if_lookup_by_index_per_ns(zns, nexthop->ifindex); if (ifp && if_is_operative(ifp)) SET_FLAG(nexthop->flags, NEXTHOP_FLAG_ACTIVE); else UNSET_FLAG(nexthop->flags, NEXTHOP_FLAG_ACTIVE); break; case NEXTHOP_TYPE_IPV4: case NEXTHOP_TYPE_IPV4_IFINDEX: if (nhlfe_nexthop_active_ipv4(nhlfe, nexthop)) SET_FLAG(nexthop->flags, NEXTHOP_FLAG_ACTIVE); else UNSET_FLAG(nexthop->flags, NEXTHOP_FLAG_ACTIVE); break; case NEXTHOP_TYPE_IPV6: if (nhlfe_nexthop_active_ipv6(nhlfe, nexthop)) SET_FLAG(nexthop->flags, NEXTHOP_FLAG_ACTIVE); else UNSET_FLAG(nexthop->flags, NEXTHOP_FLAG_ACTIVE); break; case NEXTHOP_TYPE_IPV6_IFINDEX: if (IN6_IS_ADDR_LINKLOCAL(&nexthop->gate.ipv6)) { ifp = if_lookup_by_index(nexthop->ifindex, nexthop->vrf_id); if (ifp && if_is_operative(ifp)) SET_FLAG(nexthop->flags, NEXTHOP_FLAG_ACTIVE); else UNSET_FLAG(nexthop->flags, NEXTHOP_FLAG_ACTIVE); } else { if (nhlfe_nexthop_active_ipv6(nhlfe, nexthop)) SET_FLAG(nexthop->flags, NEXTHOP_FLAG_ACTIVE); else UNSET_FLAG(nexthop->flags, NEXTHOP_FLAG_ACTIVE); } break; case NEXTHOP_TYPE_BLACKHOLE: break; } return CHECK_FLAG(nexthop->flags, NEXTHOP_FLAG_ACTIVE); } /* * Walk through NHLFEs for a LSP forwarding entry, verify nexthop * reachability and select the best. Multipath entries are also * marked. This is invoked when an LSP scheduled for processing (due * to some change) is examined. */ static void lsp_select_best_nhlfe(struct zebra_lsp *lsp) { struct zebra_nhlfe *nhlfe; struct zebra_nhlfe *best; struct nexthop *nexthop; int changed = 0; if (!lsp) return; best = NULL; lsp->num_ecmp = 0; UNSET_FLAG(lsp->flags, LSP_FLAG_CHANGED); /* * First compute the best path, after checking nexthop status. We are * only concerned with non-deleted NHLFEs. */ frr_each_safe(nhlfe_list, &lsp->nhlfe_list, nhlfe) { /* Clear selection flags. */ UNSET_FLAG(nhlfe->flags, (NHLFE_FLAG_SELECTED | NHLFE_FLAG_MULTIPATH)); if (!CHECK_FLAG(nhlfe->flags, NHLFE_FLAG_DELETED) && nhlfe_nexthop_active(nhlfe)) { if (!best || (nhlfe->distance < best->distance)) best = nhlfe; } } lsp->best_nhlfe = best; if (!lsp->best_nhlfe) return; /* * Check the active status of backup nhlfes also */ frr_each_safe(nhlfe_list, &lsp->backup_nhlfe_list, nhlfe) { if (!CHECK_FLAG(nhlfe->flags, NHLFE_FLAG_DELETED)) (void)nhlfe_nexthop_active(nhlfe); } /* Mark best NHLFE as selected. */ SET_FLAG(lsp->best_nhlfe->flags, NHLFE_FLAG_SELECTED); /* * If best path exists, see if there is ECMP. While doing this, note if * a * new (uninstalled) NHLFE has been selected, an installed entry that is * still selected has a change or an installed entry is to be removed. */ frr_each(nhlfe_list, &lsp->nhlfe_list, nhlfe) { int nh_chg, nh_sel, nh_inst; nexthop = nhlfe->nexthop; if (!nexthop) // unexpected continue; if (!CHECK_FLAG(nhlfe->flags, NHLFE_FLAG_DELETED) && CHECK_FLAG(nexthop->flags, NEXTHOP_FLAG_ACTIVE) && (nhlfe->distance == lsp->best_nhlfe->distance)) { SET_FLAG(nhlfe->flags, NHLFE_FLAG_SELECTED); SET_FLAG(nhlfe->flags, NHLFE_FLAG_MULTIPATH); lsp->num_ecmp++; } if (CHECK_FLAG(lsp->flags, LSP_FLAG_INSTALLED) && !changed) { nh_chg = CHECK_FLAG(nhlfe->flags, NHLFE_FLAG_CHANGED); nh_sel = CHECK_FLAG(nhlfe->flags, NHLFE_FLAG_SELECTED); nh_inst = CHECK_FLAG(nhlfe->flags, NHLFE_FLAG_INSTALLED); if ((nh_sel && !nh_inst) || (nh_sel && nh_inst && nh_chg) || (nh_inst && !nh_sel)) changed = 1; } /* We have finished examining, clear changed flag. */ UNSET_FLAG(nhlfe->flags, NHLFE_FLAG_CHANGED); } if (changed) SET_FLAG(lsp->flags, LSP_FLAG_CHANGED); } /* * Delete LSP forwarding entry from kernel, if installed. Called upon * process exit. */ static void lsp_uninstall_from_kernel(struct hash_bucket *bucket, void *ctxt) { struct zebra_lsp *lsp; lsp = (struct zebra_lsp *)bucket->data; if (CHECK_FLAG(lsp->flags, LSP_FLAG_INSTALLED)) (void)dplane_lsp_delete(lsp); } /* * Schedule LSP forwarding entry for processing. Called upon changes * that may impact LSPs such as nexthop / connected route changes. */ static void lsp_schedule(struct hash_bucket *bucket, void *ctxt) { struct zebra_lsp *lsp; lsp = (struct zebra_lsp *)bucket->data; /* In the common flow, this is used when external events occur. For * LSPs with backup nhlfes, we'll assume that the forwarding * plane will use the backups to handle these events, until the * owning protocol can react. */ if (ctxt == NULL) { /* Skip LSPs with backups */ if (nhlfe_list_first(&lsp->backup_nhlfe_list) != NULL) { if (IS_ZEBRA_DEBUG_MPLS_DETAIL) zlog_debug("%s: skip LSP in-label %u", __func__, lsp->ile.in_label); return; } } (void)lsp_processq_add(lsp); } /* * Process a LSP entry that is in the queue. Recalculate best NHLFE and * any multipaths and update or delete from the kernel, as needed. */ static wq_item_status lsp_process(struct work_queue *wq, void *data) { struct zebra_lsp *lsp; struct zebra_nhlfe *oldbest, *newbest; char buf[BUFSIZ], buf2[BUFSIZ]; struct zebra_vrf *zvrf = zebra_vrf_lookup_by_id(VRF_DEFAULT); enum zebra_dplane_result res; lsp = (struct zebra_lsp *)data; if (!lsp) // unexpected return WQ_SUCCESS; oldbest = lsp->best_nhlfe; /* Select best NHLFE(s) */ lsp_select_best_nhlfe(lsp); newbest = lsp->best_nhlfe; if (IS_ZEBRA_DEBUG_MPLS) { if (oldbest) nhlfe2str(oldbest, buf, sizeof(buf)); if (newbest) nhlfe2str(newbest, buf2, sizeof(buf2)); zlog_debug( "Process LSP in-label %u oldbest %s newbest %s flags 0x%x ecmp# %d", lsp->ile.in_label, oldbest ? buf : "NULL", newbest ? buf2 : "NULL", lsp->flags, lsp->num_ecmp); } if (!CHECK_FLAG(lsp->flags, LSP_FLAG_INSTALLED)) { /* Not already installed */ if (newbest) { UNSET_FLAG(lsp->flags, LSP_FLAG_CHANGED); switch (dplane_lsp_add(lsp)) { case ZEBRA_DPLANE_REQUEST_QUEUED: /* Set 'installed' flag so we will know * that an install is in-flight. */ SET_FLAG(lsp->flags, LSP_FLAG_INSTALLED); zvrf->lsp_installs_queued++; break; case ZEBRA_DPLANE_REQUEST_FAILURE: flog_warn(EC_ZEBRA_LSP_INSTALL_FAILURE, "LSP Install Failure: %u", lsp->ile.in_label); break; case ZEBRA_DPLANE_REQUEST_SUCCESS: zvrf->lsp_installs++; break; } } } else { /* Installed, may need an update and/or delete. */ if (!newbest) { res = dplane_lsp_delete(lsp); /* We do some of the lsp cleanup immediately for * deletes. */ UNSET_FLAG(lsp->flags, LSP_FLAG_INSTALLED); clear_nhlfe_installed(lsp); switch (res) { case ZEBRA_DPLANE_REQUEST_QUEUED: zvrf->lsp_removals_queued++; break; case ZEBRA_DPLANE_REQUEST_FAILURE: flog_warn(EC_ZEBRA_LSP_DELETE_FAILURE, "LSP Deletion Failure: %u", lsp->ile.in_label); break; case ZEBRA_DPLANE_REQUEST_SUCCESS: zvrf->lsp_removals++; break; } } else if (CHECK_FLAG(lsp->flags, LSP_FLAG_CHANGED)) { struct zebra_nhlfe *nhlfe; struct nexthop *nexthop; UNSET_FLAG(lsp->flags, LSP_FLAG_CHANGED); /* We leave the INSTALLED flag set here * so we know an update is in-flight. */ /* * Any NHLFE that was installed but is not * selected now needs to have its flags updated. */ frr_each_safe(nhlfe_list, &lsp->nhlfe_list, nhlfe) { nexthop = nhlfe->nexthop; if (!nexthop) continue; if (CHECK_FLAG(nhlfe->flags, NHLFE_FLAG_INSTALLED) && !CHECK_FLAG(nhlfe->flags, NHLFE_FLAG_SELECTED)) { UNSET_FLAG(nhlfe->flags, NHLFE_FLAG_INSTALLED); UNSET_FLAG(nexthop->flags, NEXTHOP_FLAG_FIB); } } switch (dplane_lsp_update(lsp)) { case ZEBRA_DPLANE_REQUEST_QUEUED: zvrf->lsp_installs_queued++; break; case ZEBRA_DPLANE_REQUEST_FAILURE: flog_warn(EC_ZEBRA_LSP_INSTALL_FAILURE, "LSP Update Failure: %u", lsp->ile.in_label); break; case ZEBRA_DPLANE_REQUEST_SUCCESS: zvrf->lsp_installs++; break; } } } return WQ_SUCCESS; } /* * Callback upon processing completion of a LSP forwarding entry. */ static void lsp_processq_del(struct work_queue *wq, void *data) { struct zebra_vrf *zvrf; struct zebra_lsp *lsp; struct hash *lsp_table; struct zebra_nhlfe *nhlfe; /* If zebra is shutting down, don't delete any structs, * just ignore this callback. The LSPs will be cleaned up * during the shutdown processing. */ if (zebra_router_in_shutdown()) return; zvrf = zebra_vrf_lookup_by_id(VRF_DEFAULT); lsp_table = zvrf->lsp_table; if (!lsp_table) // unexpected return; lsp = (struct zebra_lsp *)data; if (!lsp) // unexpected return; /* Clear flag, remove any NHLFEs marked for deletion. If no NHLFEs * exist, * delete LSP entry also. */ UNSET_FLAG(lsp->flags, LSP_FLAG_SCHEDULED); frr_each_safe(nhlfe_list, &lsp->nhlfe_list, nhlfe) { if (CHECK_FLAG(nhlfe->flags, NHLFE_FLAG_DELETED)) nhlfe_del(nhlfe); } frr_each_safe(nhlfe_list, &lsp->backup_nhlfe_list, nhlfe) { if (CHECK_FLAG(nhlfe->flags, NHLFE_FLAG_DELETED)) nhlfe_del(nhlfe); } lsp_check_free(lsp_table, &lsp); } /* * Callback upon finishing the processing of all scheduled * LSP forwarding entries. */ static void lsp_processq_complete(struct work_queue *wq) { /* Nothing to do for now. */ } /* * Add LSP forwarding entry to queue for subsequent processing. */ static int lsp_processq_add(struct zebra_lsp *lsp) { /* If already scheduled, exit. */ if (CHECK_FLAG(lsp->flags, LSP_FLAG_SCHEDULED)) return 0; if (zrouter.lsp_process_q == NULL) { flog_err(EC_ZEBRA_WQ_NONEXISTENT, "%s: work_queue does not exist!", __func__); return -1; } work_queue_add(zrouter.lsp_process_q, lsp); SET_FLAG(lsp->flags, LSP_FLAG_SCHEDULED); return 0; } /* * Callback to allocate LSP forwarding table entry. */ static void *lsp_alloc(void *p) { const struct zebra_ile *ile = p; struct zebra_lsp *lsp; lsp = XCALLOC(MTYPE_LSP, sizeof(struct zebra_lsp)); lsp->ile = *ile; nhlfe_list_init(&lsp->nhlfe_list); nhlfe_list_init(&lsp->backup_nhlfe_list); if (IS_ZEBRA_DEBUG_MPLS) zlog_debug("Alloc LSP in-label %u", lsp->ile.in_label); return ((void *)lsp); } /* * Check whether lsp can be freed - no nhlfes, e.g., and call free api */ static void lsp_check_free(struct hash *lsp_table, struct zebra_lsp **plsp) { struct zebra_lsp *lsp; if (plsp == NULL || *plsp == NULL) return; lsp = *plsp; if ((nhlfe_list_first(&lsp->nhlfe_list) == NULL) && (nhlfe_list_first(&lsp->backup_nhlfe_list) == NULL) && !CHECK_FLAG(lsp->flags, LSP_FLAG_SCHEDULED)) lsp_free(lsp_table, plsp); } static void lsp_free_nhlfe(struct zebra_lsp *lsp) { struct zebra_nhlfe *nhlfe; while ((nhlfe = nhlfe_list_first(&lsp->nhlfe_list))) { nhlfe_list_del(&lsp->nhlfe_list, nhlfe); nhlfe_free(nhlfe); } while ((nhlfe = nhlfe_list_first(&lsp->backup_nhlfe_list))) { nhlfe_list_del(&lsp->backup_nhlfe_list, nhlfe); nhlfe_free(nhlfe); } } /* * Dtor for an LSP: remove from ile hash, release any internal allocations, * free LSP object. */ static void lsp_free(struct hash *lsp_table, struct zebra_lsp **plsp) { struct zebra_lsp *lsp; if (plsp == NULL || *plsp == NULL) return; lsp = *plsp; if (IS_ZEBRA_DEBUG_MPLS) zlog_debug("Free LSP in-label %u flags 0x%x", lsp->ile.in_label, lsp->flags); lsp_free_nhlfe(lsp); hash_release(lsp_table, &lsp->ile); XFREE(MTYPE_LSP, lsp); *plsp = NULL; } /* * Create printable string for NHLFE entry. */ static char *nhlfe2str(const struct zebra_nhlfe *nhlfe, char *buf, int size) { const struct nexthop *nexthop; buf[0] = '\0'; nexthop = nhlfe->nexthop; switch (nexthop->type) { case NEXTHOP_TYPE_IPV4: case NEXTHOP_TYPE_IPV4_IFINDEX: inet_ntop(AF_INET, &nexthop->gate.ipv4, buf, size); break; case NEXTHOP_TYPE_IPV6: case NEXTHOP_TYPE_IPV6_IFINDEX: inet_ntop(AF_INET6, &nexthop->gate.ipv6, buf, size); break; case NEXTHOP_TYPE_IFINDEX: snprintf(buf, size, "Ifindex: %u", nexthop->ifindex); break; case NEXTHOP_TYPE_BLACKHOLE: break; } return buf; } /* * Check if NHLFE matches with search info passed. */ static int nhlfe_nhop_match(struct zebra_nhlfe *nhlfe, enum nexthop_types_t gtype, const union g_addr *gate, ifindex_t ifindex) { struct nexthop *nhop; int cmp = 1; nhop = nhlfe->nexthop; if (!nhop) return 1; if (nhop->type != gtype) return 1; switch (nhop->type) { case NEXTHOP_TYPE_IPV4: case NEXTHOP_TYPE_IPV4_IFINDEX: cmp = memcmp(&(nhop->gate.ipv4), &(gate->ipv4), sizeof(struct in_addr)); if (!cmp && nhop->type == NEXTHOP_TYPE_IPV4_IFINDEX) cmp = !(nhop->ifindex == ifindex); break; case NEXTHOP_TYPE_IPV6: case NEXTHOP_TYPE_IPV6_IFINDEX: cmp = memcmp(&(nhop->gate.ipv6), &(gate->ipv6), sizeof(struct in6_addr)); if (!cmp && nhop->type == NEXTHOP_TYPE_IPV6_IFINDEX) cmp = !(nhop->ifindex == ifindex); break; case NEXTHOP_TYPE_IFINDEX: cmp = !(nhop->ifindex == ifindex); break; case NEXTHOP_TYPE_BLACKHOLE: break; } return cmp; } /* * Locate NHLFE that matches with passed info. * TODO: handle vrf_id if vrf backend is netns based */ static struct zebra_nhlfe *nhlfe_find(struct nhlfe_list_head *list, enum lsp_types_t lsp_type, enum nexthop_types_t gtype, const union g_addr *gate, ifindex_t ifindex) { struct zebra_nhlfe *nhlfe; frr_each_safe(nhlfe_list, list, nhlfe) { if (nhlfe->type != lsp_type) continue; if (!nhlfe_nhop_match(nhlfe, gtype, gate, ifindex)) break; } return nhlfe; } /* * Allocate and init new NHLFE. */ static struct zebra_nhlfe * nhlfe_alloc(struct zebra_lsp *lsp, enum lsp_types_t lsp_type, enum nexthop_types_t gtype, const union g_addr *gate, ifindex_t ifindex, vrf_id_t vrf_id, uint8_t num_labels, const mpls_label_t *labels) { struct zebra_nhlfe *nhlfe; struct nexthop *nexthop; assert(lsp); nhlfe = XCALLOC(MTYPE_NHLFE, sizeof(struct zebra_nhlfe)); nhlfe->lsp = lsp; nhlfe->type = lsp_type; nhlfe->distance = lsp_distance(lsp_type); nexthop = nexthop_new(); nexthop_add_labels(nexthop, lsp_type, num_labels, labels); nexthop->vrf_id = vrf_id; nexthop->type = gtype; switch (nexthop->type) { case NEXTHOP_TYPE_IPV4: case NEXTHOP_TYPE_IPV4_IFINDEX: nexthop->gate.ipv4 = gate->ipv4; if (ifindex) nexthop->ifindex = ifindex; break; case NEXTHOP_TYPE_IPV6: case NEXTHOP_TYPE_IPV6_IFINDEX: nexthop->gate.ipv6 = gate->ipv6; if (ifindex) nexthop->ifindex = ifindex; break; case NEXTHOP_TYPE_IFINDEX: nexthop->ifindex = ifindex; break; case NEXTHOP_TYPE_BLACKHOLE: if (IS_ZEBRA_DEBUG_MPLS) zlog_debug("%s: invalid: blackhole nexthop", __func__); nexthop_free(nexthop); XFREE(MTYPE_NHLFE, nhlfe); return NULL; } nhlfe->nexthop = nexthop; return nhlfe; } /* * Add primary or backup NHLFE. Base entry must have been created and * duplicate check done. */ static struct zebra_nhlfe * nhlfe_add(struct zebra_lsp *lsp, enum lsp_types_t lsp_type, enum nexthop_types_t gtype, const union g_addr *gate, ifindex_t ifindex, vrf_id_t vrf_id, uint8_t num_labels, const mpls_label_t *labels, bool is_backup) { struct zebra_nhlfe *nhlfe; if (!lsp) return NULL; /* Allocate new object */ nhlfe = nhlfe_alloc(lsp, lsp_type, gtype, gate, ifindex, vrf_id, num_labels, labels); if (!nhlfe) return NULL; /* Enqueue to LSP: primaries at head of list, backups at tail */ if (is_backup) { SET_FLAG(nhlfe->flags, NHLFE_FLAG_IS_BACKUP); nhlfe_list_add_tail(&lsp->backup_nhlfe_list, nhlfe); } else nhlfe_list_add_head(&lsp->nhlfe_list, nhlfe); return nhlfe; } /* * Common delete for NHLFEs. */ static void nhlfe_free(struct zebra_nhlfe *nhlfe) { if (!nhlfe) return; /* Free nexthop. */ if (nhlfe->nexthop) nexthop_free(nhlfe->nexthop); nhlfe->nexthop = NULL; XFREE(MTYPE_NHLFE, nhlfe); } /* * Disconnect NHLFE from LSP, and free. Entry must be present on LSP's list. */ static int nhlfe_del(struct zebra_nhlfe *nhlfe) { struct zebra_lsp *lsp; if (!nhlfe) return -1; lsp = nhlfe->lsp; if (!lsp) return -1; if (nhlfe == lsp->best_nhlfe) lsp->best_nhlfe = NULL; /* Unlink from LSP */ if (CHECK_FLAG(nhlfe->flags, NHLFE_FLAG_IS_BACKUP)) nhlfe_list_del(&lsp->backup_nhlfe_list, nhlfe); else nhlfe_list_del(&lsp->nhlfe_list, nhlfe); nhlfe->lsp = NULL; nhlfe_free(nhlfe); return 0; } /* * Update label for NHLFE entry. */ static void nhlfe_out_label_update(struct zebra_nhlfe *nhlfe, struct mpls_label_stack *nh_label) { nhlfe->nexthop->nh_label->label[0] = nh_label->label[0]; } static int mpls_lsp_uninstall_all(struct hash *lsp_table, struct zebra_lsp *lsp, enum lsp_types_t type) { struct zebra_nhlfe *nhlfe; int schedule_lsp = 0; char buf[BUFSIZ]; if (CHECK_FLAG(lsp->flags, LSP_FLAG_INSTALLED)) schedule_lsp = 1; /* Mark NHLFEs for delete or directly delete, as appropriate. */ frr_each_safe(nhlfe_list, &lsp->nhlfe_list, nhlfe) { /* Skip non-static NHLFEs */ if (nhlfe->type != type) continue; if (IS_ZEBRA_DEBUG_MPLS) { nhlfe2str(nhlfe, buf, sizeof(buf)); zlog_debug( "Del LSP in-label %u type %d nexthop %s flags 0x%x", lsp->ile.in_label, type, buf, nhlfe->flags); } if (CHECK_FLAG(nhlfe->flags, NHLFE_FLAG_INSTALLED)) { UNSET_FLAG(nhlfe->flags, NHLFE_FLAG_CHANGED); SET_FLAG(nhlfe->flags, NHLFE_FLAG_DELETED); schedule_lsp = 1; } else { nhlfe_del(nhlfe); } } frr_each_safe(nhlfe_list, &lsp->backup_nhlfe_list, nhlfe) { /* Skip non-static NHLFEs */ if (nhlfe->type != type) continue; if (IS_ZEBRA_DEBUG_MPLS) { nhlfe2str(nhlfe, buf, sizeof(buf)); zlog_debug( "Del backup LSP in-label %u type %d nexthop %s flags 0x%x", lsp->ile.in_label, type, buf, nhlfe->flags); } if (CHECK_FLAG(nhlfe->flags, NHLFE_FLAG_INSTALLED)) { UNSET_FLAG(nhlfe->flags, NHLFE_FLAG_CHANGED); SET_FLAG(nhlfe->flags, NHLFE_FLAG_DELETED); schedule_lsp = 1; } else { nhlfe_del(nhlfe); } } /* Queue LSP for processing, if needed, else delete. */ if (schedule_lsp) { if (IS_ZEBRA_DEBUG_MPLS) { zlog_debug("Schedule LSP in-label %u flags 0x%x", lsp->ile.in_label, lsp->flags); } if (lsp_processq_add(lsp)) return -1; } else { lsp_check_free(lsp_table, &lsp); } return 0; } /* * Uninstall all static NHLFEs for a particular LSP forwarding entry. * If no other NHLFEs exist, the entry would be deleted. */ static int mpls_static_lsp_uninstall_all(struct zebra_vrf *zvrf, mpls_label_t in_label) { struct hash *lsp_table; struct zebra_ile tmp_ile; struct zebra_lsp *lsp; /* Lookup table. */ lsp_table = zvrf->lsp_table; if (!lsp_table) return -1; /* If entry is not present, exit. */ tmp_ile.in_label = in_label; lsp = hash_lookup(lsp_table, &tmp_ile); if (!lsp || (nhlfe_list_first(&lsp->nhlfe_list) == NULL)) return 0; return mpls_lsp_uninstall_all(lsp_table, lsp, ZEBRA_LSP_STATIC); } static json_object *nhlfe_json(struct zebra_nhlfe *nhlfe) { json_object *json_nhlfe = NULL; json_object *json_backups = NULL; json_object *json_label_stack; struct nexthop *nexthop = nhlfe->nexthop; int i; json_nhlfe = json_object_new_object(); json_object_string_add(json_nhlfe, "type", nhlfe_type2str(nhlfe->type)); if (nexthop->nh_label) { json_object_int_add(json_nhlfe, "outLabel", nexthop->nh_label->label[0]); json_label_stack = json_object_new_array(); json_object_object_add(json_nhlfe, "outLabelStack", json_label_stack); for (i = 0; i < nexthop->nh_label->num_labels; i++) json_object_array_add( json_label_stack, json_object_new_int( nexthop->nh_label->label[i])); } json_object_int_add(json_nhlfe, "distance", nhlfe->distance); if (CHECK_FLAG(nhlfe->flags, NHLFE_FLAG_INSTALLED)) json_object_boolean_true_add(json_nhlfe, "installed"); switch (nexthop->type) { case NEXTHOP_TYPE_IPV4: case NEXTHOP_TYPE_IPV4_IFINDEX: json_object_string_addf(json_nhlfe, "nexthop", "%pI4", &nexthop->gate.ipv4); if (nexthop->ifindex) json_object_string_add(json_nhlfe, "interface", ifindex2ifname(nexthop->ifindex, nexthop->vrf_id)); break; case NEXTHOP_TYPE_IPV6: case NEXTHOP_TYPE_IPV6_IFINDEX: json_object_string_addf(json_nhlfe, "nexthop", "%pI6", &nexthop->gate.ipv6); if (nexthop->ifindex) json_object_string_add(json_nhlfe, "interface", ifindex2ifname(nexthop->ifindex, nexthop->vrf_id)); break; case NEXTHOP_TYPE_IFINDEX: if (nexthop->ifindex) json_object_string_add(json_nhlfe, "interface", ifindex2ifname(nexthop->ifindex, nexthop->vrf_id)); break; case NEXTHOP_TYPE_BLACKHOLE: break; } if (CHECK_FLAG(nexthop->flags, NEXTHOP_FLAG_HAS_BACKUP)) { json_backups = json_object_new_array(); for (i = 0; i < nexthop->backup_num; i++) { json_object_array_add( json_backups, json_object_new_int(nexthop->backup_idx[i])); } json_object_object_add(json_nhlfe, "backupIndex", json_backups); } return json_nhlfe; } /* * Print the NHLFE for a LSP forwarding entry. */ static void nhlfe_print(struct zebra_nhlfe *nhlfe, struct vty *vty, const char *indent) { struct nexthop *nexthop; char buf[MPLS_LABEL_STRLEN]; nexthop = nhlfe->nexthop; if (!nexthop || !nexthop->nh_label) // unexpected return; vty_out(vty, " type: %s remote label: %s distance: %d\n", nhlfe_type2str(nhlfe->type), mpls_label2str(nexthop->nh_label->num_labels, nexthop->nh_label->label, buf, sizeof(buf), nexthop->nh_label_type, 0), nhlfe->distance); if (indent) vty_out(vty, "%s", indent); switch (nexthop->type) { case NEXTHOP_TYPE_IPV4: case NEXTHOP_TYPE_IPV4_IFINDEX: vty_out(vty, " via %pI4", &nexthop->gate.ipv4); if (nexthop->ifindex) vty_out(vty, " dev %s", ifindex2ifname(nexthop->ifindex, nexthop->vrf_id)); break; case NEXTHOP_TYPE_IPV6: case NEXTHOP_TYPE_IPV6_IFINDEX: vty_out(vty, " via %s", inet_ntop(AF_INET6, &nexthop->gate.ipv6, buf, sizeof(buf))); if (nexthop->ifindex) vty_out(vty, " dev %s", ifindex2ifname(nexthop->ifindex, nexthop->vrf_id)); break; case NEXTHOP_TYPE_IFINDEX: if (nexthop->ifindex) vty_out(vty, " dev %s", ifindex2ifname(nexthop->ifindex, nexthop->vrf_id)); break; case NEXTHOP_TYPE_BLACKHOLE: break; } vty_out(vty, "%s", CHECK_FLAG(nhlfe->flags, NHLFE_FLAG_IS_BACKUP) ? " (backup)" : ""); vty_out(vty, "%s", CHECK_FLAG(nhlfe->flags, NHLFE_FLAG_INSTALLED) ? " (installed)" : ""); vty_out(vty, "\n"); } /* * Print an LSP forwarding entry. */ static void lsp_print(struct vty *vty, struct zebra_lsp *lsp) { struct zebra_nhlfe *nhlfe, *backup; int i, j; vty_out(vty, "Local label: %u%s\n", lsp->ile.in_label, CHECK_FLAG(lsp->flags, LSP_FLAG_INSTALLED) ? " (installed)" : ""); frr_each(nhlfe_list, &lsp->nhlfe_list, nhlfe) { nhlfe_print(nhlfe, vty, NULL); if (nhlfe->nexthop == NULL || !CHECK_FLAG(nhlfe->nexthop->flags, NEXTHOP_FLAG_HAS_BACKUP)) continue; /* Backup nhlfes: find backups in backup list */ for (j = 0; j < nhlfe->nexthop->backup_num; j++) { i = 0; backup = NULL; frr_each(nhlfe_list, &lsp->backup_nhlfe_list, backup) { if (i == nhlfe->nexthop->backup_idx[j]) break; i++; } if (backup) { vty_out(vty, " [backup %d]", i); nhlfe_print(backup, vty, " "); } } } } /* * JSON objects for an LSP forwarding entry. */ static json_object *lsp_json(struct zebra_lsp *lsp) { struct zebra_nhlfe *nhlfe = NULL; json_object *json = json_object_new_object(); json_object *json_nhlfe_list = json_object_new_array(); json_object_int_add(json, "inLabel", lsp->ile.in_label); if (CHECK_FLAG(lsp->flags, LSP_FLAG_INSTALLED)) json_object_boolean_true_add(json, "installed"); frr_each(nhlfe_list, &lsp->nhlfe_list, nhlfe) json_object_array_add(json_nhlfe_list, nhlfe_json(nhlfe)); json_object_object_add(json, "nexthops", json_nhlfe_list); json_nhlfe_list = NULL; frr_each(nhlfe_list, &lsp->backup_nhlfe_list, nhlfe) { if (json_nhlfe_list == NULL) json_nhlfe_list = json_object_new_array(); json_object_array_add(json_nhlfe_list, nhlfe_json(nhlfe)); } if (json_nhlfe_list) json_object_object_add(json, "backupNexthops", json_nhlfe_list); return json; } /* Return a sorted linked list of the hash contents */ static struct list *hash_get_sorted_list(struct hash *hash, void *cmp) { unsigned int i; struct hash_bucket *hb; struct list *sorted_list = list_new(); sorted_list->cmp = (int (*)(void *, void *))cmp; for (i = 0; i < hash->size; i++) for (hb = hash->index[i]; hb; hb = hb->next) listnode_add_sort(sorted_list, hb->data); return sorted_list; } /* * Compare two LSPs based on their label values. */ static int lsp_cmp(const struct zebra_lsp *lsp1, const struct zebra_lsp *lsp2) { if (lsp1->ile.in_label < lsp2->ile.in_label) return -1; if (lsp1->ile.in_label > lsp2->ile.in_label) return 1; return 0; } /* * Initialize work queue for processing changed LSPs. */ static void mpls_processq_init(void) { zrouter.lsp_process_q = work_queue_new(zrouter.master, "LSP processing"); zrouter.lsp_process_q->spec.workfunc = &lsp_process; zrouter.lsp_process_q->spec.del_item_data = &lsp_processq_del; zrouter.lsp_process_q->spec.completion_func = &lsp_processq_complete; zrouter.lsp_process_q->spec.max_retries = 0; zrouter.lsp_process_q->spec.hold = 10; } /* * Process LSP update results from zebra dataplane. */ void zebra_mpls_lsp_dplane_result(struct zebra_dplane_ctx *ctx) { struct zebra_vrf *zvrf; mpls_label_t label; struct zebra_ile tmp_ile; struct hash *lsp_table; struct zebra_lsp *lsp; struct zebra_nhlfe *nhlfe; struct nexthop *nexthop; enum dplane_op_e op; enum zebra_dplane_result status; enum zebra_sr_policy_update_label_mode update_mode; op = dplane_ctx_get_op(ctx); status = dplane_ctx_get_status(ctx); if (IS_ZEBRA_DEBUG_DPLANE_DETAIL) zlog_debug("LSP dplane ctx %p, op %s, in-label %u, result %s", ctx, dplane_op2str(op), dplane_ctx_get_in_label(ctx), dplane_res2str(status)); label = dplane_ctx_get_in_label(ctx); if (op == DPLANE_OP_LSP_INSTALL || op == DPLANE_OP_LSP_UPDATE) { /* Look for zebra LSP object */ zvrf = zebra_vrf_lookup_by_id(VRF_DEFAULT); lsp_table = zvrf->lsp_table; tmp_ile.in_label = label; lsp = hash_lookup(lsp_table, &tmp_ile); if (lsp == NULL) { if (IS_ZEBRA_DEBUG_DPLANE) zlog_debug("LSP ctx %p: in-label %u not found", ctx, dplane_ctx_get_in_label(ctx)); return; } /* TODO -- Confirm that this result is still 'current' */ if (status != ZEBRA_DPLANE_REQUEST_SUCCESS) { UNSET_FLAG(lsp->flags, LSP_FLAG_INSTALLED); clear_nhlfe_installed(lsp); flog_warn(EC_ZEBRA_LSP_INSTALL_FAILURE, "LSP Install Failure: in-label %u", lsp->ile.in_label); return; } /* Update zebra object */ SET_FLAG(lsp->flags, LSP_FLAG_INSTALLED); frr_each(nhlfe_list, &lsp->nhlfe_list, nhlfe) { nexthop = nhlfe->nexthop; if (!nexthop) continue; if (CHECK_FLAG(nhlfe->flags, NHLFE_FLAG_SELECTED) && CHECK_FLAG(nexthop->flags, NEXTHOP_FLAG_ACTIVE)) { SET_FLAG(nhlfe->flags, NHLFE_FLAG_INSTALLED); SET_FLAG(nexthop->flags, NEXTHOP_FLAG_FIB); } } update_mode = (op == DPLANE_OP_LSP_INSTALL) ? ZEBRA_SR_POLICY_LABEL_CREATED : ZEBRA_SR_POLICY_LABEL_UPDATED; zebra_sr_policy_label_update(label, update_mode); } else if (op == DPLANE_OP_LSP_DELETE) { if (status != ZEBRA_DPLANE_REQUEST_SUCCESS) { flog_warn(EC_ZEBRA_LSP_DELETE_FAILURE, "LSP Deletion Failure: in-label %u", dplane_ctx_get_in_label(ctx)); return; } zebra_sr_policy_label_update(label, ZEBRA_SR_POLICY_LABEL_REMOVED); } } /* * Process LSP installation info from two sets of nhlfes: a set from * a dplane notification, and a set from the zebra LSP object. Update * counters of installed nexthops, and return whether the LSP has changed. */ static bool compare_notif_nhlfes(const struct nhlfe_list_head *ctx_head, struct nhlfe_list_head *nhlfe_head, int *start_counter, int *end_counter) { struct zebra_nhlfe *nhlfe; const struct zebra_nhlfe *ctx_nhlfe; struct nexthop *nexthop; const struct nexthop *ctx_nexthop; int start_count = 0, end_count = 0; bool changed_p = false; bool is_debug = (IS_ZEBRA_DEBUG_DPLANE | IS_ZEBRA_DEBUG_MPLS); frr_each_safe(nhlfe_list, nhlfe_head, nhlfe) { char buf[NEXTHOP_STRLEN]; nexthop = nhlfe->nexthop; if (!nexthop) continue; if (CHECK_FLAG(nexthop->flags, NEXTHOP_FLAG_FIB)) start_count++; ctx_nhlfe = NULL; ctx_nexthop = NULL; frr_each(nhlfe_list_const, ctx_head, ctx_nhlfe) { ctx_nexthop = ctx_nhlfe->nexthop; if (!ctx_nexthop) continue; if ((ctx_nexthop->type == nexthop->type) && nexthop_same(ctx_nexthop, nexthop)) { /* Matched */ break; } } if (is_debug) nexthop2str(nexthop, buf, sizeof(buf)); if (ctx_nhlfe && ctx_nexthop) { if (is_debug) { const char *tstr = ""; if (!CHECK_FLAG(ctx_nhlfe->flags, NHLFE_FLAG_INSTALLED)) tstr = "not "; zlog_debug("LSP dplane notif: matched nh %s (%sinstalled)", buf, tstr); } /* Test zebra nhlfe install state */ if (CHECK_FLAG(ctx_nhlfe->flags, NHLFE_FLAG_INSTALLED)) { if (!CHECK_FLAG(nhlfe->flags, NHLFE_FLAG_INSTALLED)) changed_p = true; /* Update counter */ end_count++; } else { if (CHECK_FLAG(nhlfe->flags, NHLFE_FLAG_INSTALLED)) changed_p = true; } } else { /* Not mentioned in lfib set -> uninstalled */ if (CHECK_FLAG(nhlfe->flags, NHLFE_FLAG_INSTALLED) || CHECK_FLAG(nexthop->flags, NEXTHOP_FLAG_ACTIVE) || CHECK_FLAG(nexthop->flags, NEXTHOP_FLAG_FIB)) { changed_p = true; } if (is_debug) zlog_debug("LSP dplane notif: no match, nh %s", buf); } } if (start_counter) *start_counter += start_count; if (end_counter) *end_counter += end_count; return changed_p; } /* * Update an lsp nhlfe list from a dplane context, typically an async * notification context. Update the LSP list to match the installed * status from the context's list. */ static int update_nhlfes_from_ctx(struct nhlfe_list_head *nhlfe_head, const struct nhlfe_list_head *ctx_head) { int ret = 0; struct zebra_nhlfe *nhlfe; const struct zebra_nhlfe *ctx_nhlfe; struct nexthop *nexthop; const struct nexthop *ctx_nexthop; bool is_debug = (IS_ZEBRA_DEBUG_DPLANE | IS_ZEBRA_DEBUG_MPLS); frr_each_safe(nhlfe_list, nhlfe_head, nhlfe) { char buf[NEXTHOP_STRLEN]; nexthop = nhlfe->nexthop; if (!nexthop) continue; ctx_nhlfe = NULL; ctx_nexthop = NULL; frr_each(nhlfe_list_const, ctx_head, ctx_nhlfe) { ctx_nexthop = ctx_nhlfe->nexthop; if (!ctx_nexthop) continue; if ((ctx_nexthop->type == nexthop->type) && nexthop_same(ctx_nexthop, nexthop)) { /* Matched */ break; } } if (is_debug) nexthop2str(nexthop, buf, sizeof(buf)); if (ctx_nhlfe && ctx_nexthop) { /* Bring zebra nhlfe install state into sync */ if (CHECK_FLAG(ctx_nhlfe->flags, NHLFE_FLAG_INSTALLED)) { if (is_debug) zlog_debug("%s: matched lsp nhlfe %s (installed)", __func__, buf); SET_FLAG(nhlfe->flags, NHLFE_FLAG_INSTALLED); SET_FLAG(nhlfe->flags, NHLFE_FLAG_SELECTED); } else { if (is_debug) zlog_debug("%s: matched lsp nhlfe %s (not installed)", __func__, buf); UNSET_FLAG(nhlfe->flags, NHLFE_FLAG_INSTALLED); UNSET_FLAG(nhlfe->flags, NHLFE_FLAG_SELECTED); } if (CHECK_FLAG(ctx_nhlfe->nexthop->flags, NEXTHOP_FLAG_FIB)) { SET_FLAG(nhlfe->nexthop->flags, NEXTHOP_FLAG_ACTIVE); SET_FLAG(nhlfe->nexthop->flags, NEXTHOP_FLAG_FIB); } else { UNSET_FLAG(nhlfe->nexthop->flags, NEXTHOP_FLAG_ACTIVE); UNSET_FLAG(nhlfe->nexthop->flags, NEXTHOP_FLAG_FIB); } } else { /* Not mentioned in lfib set -> uninstalled */ if (is_debug) zlog_debug("%s: no match for lsp nhlfe %s", __func__, buf); UNSET_FLAG(nhlfe->flags, NHLFE_FLAG_INSTALLED); UNSET_FLAG(nhlfe->flags, NHLFE_FLAG_SELECTED); UNSET_FLAG(nexthop->flags, NEXTHOP_FLAG_FIB); UNSET_FLAG(nexthop->flags, NEXTHOP_FLAG_ACTIVE); } } return ret; } /* * Process async dplane notifications. */ void zebra_mpls_process_dplane_notify(struct zebra_dplane_ctx *ctx) { struct zebra_vrf *zvrf; struct zebra_ile tmp_ile; struct hash *lsp_table; struct zebra_lsp *lsp; const struct nhlfe_list_head *ctx_list; int start_count = 0, end_count = 0; /* Installed counts */ bool changed_p = false; bool is_debug = (IS_ZEBRA_DEBUG_DPLANE | IS_ZEBRA_DEBUG_MPLS); enum zebra_sr_policy_update_label_mode update_mode; if (is_debug) zlog_debug("LSP dplane notif, in-label %u", dplane_ctx_get_in_label(ctx)); /* Look for zebra LSP object */ zvrf = zebra_vrf_lookup_by_id(VRF_DEFAULT); lsp_table = zvrf->lsp_table; tmp_ile.in_label = dplane_ctx_get_in_label(ctx); lsp = hash_lookup(lsp_table, &tmp_ile); if (lsp == NULL) { if (is_debug) zlog_debug("dplane LSP notif: in-label %u not found", dplane_ctx_get_in_label(ctx)); return; } /* * The dataplane/forwarding plane is notifying zebra about the state * of the nexthops associated with this LSP. First, we take a * pre-scan pass to determine whether the LSP has transitioned * from installed -> uninstalled. In that case, we need to have * the existing state of the LSP objects available before making * any changes. */ ctx_list = dplane_ctx_get_nhlfe_list(ctx); changed_p = compare_notif_nhlfes(ctx_list, &lsp->nhlfe_list, &start_count, &end_count); if (is_debug) zlog_debug("LSP dplane notif: lfib start_count %d, end_count %d%s", start_count, end_count, changed_p ? ", changed" : ""); ctx_list = dplane_ctx_get_backup_nhlfe_list(ctx); if (compare_notif_nhlfes(ctx_list, &lsp->backup_nhlfe_list, &start_count, &end_count)) /* Avoid accidentally setting back to 'false' */ changed_p = true; if (is_debug) zlog_debug("LSP dplane notif: lfib backups, start_count %d, end_count %d%s", start_count, end_count, changed_p ? ", changed" : ""); /* * Has the LSP become uninstalled? We need the existing state of the * nexthops/nhlfes at this point so we know what to delete. */ if (start_count > 0 && end_count == 0) { /* Inform other lfibs */ dplane_lsp_notif_update(lsp, DPLANE_OP_LSP_DELETE, ctx); } /* * Now we take a second pass and bring the zebra * nexthop state into sync with the forwarding-plane state. */ ctx_list = dplane_ctx_get_nhlfe_list(ctx); update_nhlfes_from_ctx(&lsp->nhlfe_list, ctx_list); ctx_list = dplane_ctx_get_backup_nhlfe_list(ctx); update_nhlfes_from_ctx(&lsp->backup_nhlfe_list, ctx_list); if (end_count > 0) { SET_FLAG(lsp->flags, LSP_FLAG_INSTALLED); /* SR-TE update too */ if (start_count == 0) update_mode = ZEBRA_SR_POLICY_LABEL_CREATED; else update_mode = ZEBRA_SR_POLICY_LABEL_UPDATED; zebra_sr_policy_label_update(lsp->ile.in_label, update_mode); if (changed_p) dplane_lsp_notif_update(lsp, DPLANE_OP_LSP_UPDATE, ctx); } else { /* SR-TE update too */ zebra_sr_policy_label_update(lsp->ile.in_label, ZEBRA_SR_POLICY_LABEL_REMOVED); UNSET_FLAG(lsp->flags, LSP_FLAG_INSTALLED); clear_nhlfe_installed(lsp); } } /* * Install dynamic LSP entry. */ int zebra_mpls_lsp_install(struct zebra_vrf *zvrf, struct route_node *rn, struct route_entry *re) { struct route_table *table; struct zebra_fec *fec; table = zvrf->fec_table[family2afi(PREFIX_FAMILY(&rn->p))]; if (!table) return -1; /* See if there is a configured label binding for this FEC. */ fec = fec_find(table, &rn->p); if (!fec || fec->label == MPLS_INVALID_LABEL) return 0; /* We cannot install a label forwarding entry if local label is the * implicit-null label. */ if (fec->label == MPLS_LABEL_IMPLICIT_NULL) return 0; if (lsp_install(zvrf, fec->label, rn, re)) return -1; return 0; } /* * Uninstall dynamic LSP entry, if any. */ int zebra_mpls_lsp_uninstall(struct zebra_vrf *zvrf, struct route_node *rn, struct route_entry *re) { struct route_table *table; struct zebra_fec *fec; table = zvrf->fec_table[family2afi(PREFIX_FAMILY(&rn->p))]; if (!table) return -1; /* See if there is a configured label binding for this FEC. */ fec = fec_find(table, &rn->p); if (!fec || fec->label == MPLS_INVALID_LABEL) return 0; /* Uninstall always removes all dynamic NHLFEs. */ return lsp_uninstall(zvrf, fec->label); } /* * Add an NHLFE to an LSP, return the newly-added object. This path only changes * the LSP object - nothing is scheduled for processing, for example. */ struct zebra_nhlfe * zebra_mpls_lsp_add_nhlfe(struct zebra_lsp *lsp, enum lsp_types_t lsp_type, enum nexthop_types_t gtype, const union g_addr *gate, ifindex_t ifindex, uint8_t num_labels, const mpls_label_t *out_labels) { /* Just a public pass-through to the internal implementation */ return nhlfe_add(lsp, lsp_type, gtype, gate, ifindex, VRF_DEFAULT, num_labels, out_labels, false /*backup*/); } /* * Add a backup NHLFE to an LSP, return the newly-added object. * This path only changes the LSP object - nothing is scheduled for * processing, for example. */ struct zebra_nhlfe *zebra_mpls_lsp_add_backup_nhlfe( struct zebra_lsp *lsp, enum lsp_types_t lsp_type, enum nexthop_types_t gtype, const union g_addr *gate, ifindex_t ifindex, uint8_t num_labels, const mpls_label_t *out_labels) { /* Just a public pass-through to the internal implementation */ return nhlfe_add(lsp, lsp_type, gtype, gate, ifindex, VRF_DEFAULT, num_labels, out_labels, true); } /* * Add an NHLFE to an LSP based on a nexthop; return the newly-added object */ struct zebra_nhlfe *zebra_mpls_lsp_add_nh(struct zebra_lsp *lsp, enum lsp_types_t lsp_type, const struct nexthop *nh) { struct zebra_nhlfe *nhlfe; nhlfe = nhlfe_add( lsp, lsp_type, nh->type, &nh->gate, nh->ifindex, nh->vrf_id, nh->nh_label ? nh->nh_label->num_labels : 0, nh->nh_label ? nh->nh_label->label : NULL, false /*backup*/); return nhlfe; } /* * Add a backup NHLFE to an LSP based on a nexthop; * return the newly-added object. */ struct zebra_nhlfe *zebra_mpls_lsp_add_backup_nh(struct zebra_lsp *lsp, enum lsp_types_t lsp_type, const struct nexthop *nh) { struct zebra_nhlfe *nhlfe; nhlfe = nhlfe_add(lsp, lsp_type, nh->type, &nh->gate, nh->ifindex, nh->vrf_id, nh->nh_label ? nh->nh_label->num_labels : 0, nh->nh_label ? nh->nh_label->label : NULL, true); return nhlfe; } /* * Free an allocated NHLFE */ void zebra_mpls_nhlfe_free(struct zebra_nhlfe *nhlfe) { /* Just a pass-through to the internal implementation */ nhlfe_free(nhlfe); } /* * Registration from a client for the label binding for a FEC. If a binding * already exists, it is informed to the client. * NOTE: If there is a manually configured label binding, that is used. * Otherwise, if a label index is specified, it means we have to allocate the * label from a locally configured label block (SRGB), if one exists and index * is acceptable. If no label index then just register the specified label. * NOTE2: Either label or label_index is expected to be set to MPLS_INVALID_* * by the calling function. Register requests with both will be rejected. */ int zebra_mpls_fec_register(struct zebra_vrf *zvrf, struct prefix *p, uint32_t label, uint32_t label_index, struct zserv *client) { struct route_table *table; struct zebra_fec *fec; bool new_client; bool label_change = false; uint32_t old_label; bool have_label_index = (label_index != MPLS_INVALID_LABEL_INDEX); bool is_configured_fec = false; /* indicate statically configured FEC */ table = zvrf->fec_table[family2afi(PREFIX_FAMILY(p))]; if (!table) return -1; if (label != MPLS_INVALID_LABEL && have_label_index) { flog_err( EC_ZEBRA_FEC_LABEL_INDEX_LABEL_CONFLICT, "Rejecting FEC register for %pFX with both label %u and Label Index %u specified, client %s", p, label, label_index, zebra_route_string(client->proto)); return -1; } /* Locate FEC */ fec = fec_find(table, p); if (!fec) { fec = fec_add(table, p, label, 0, label_index); if (!fec) { flog_err( EC_ZEBRA_FEC_ADD_FAILED, "Failed to add FEC %pFX upon register, client %s", p, zebra_route_string(client->proto)); return -1; } old_label = MPLS_INVALID_LABEL; new_client = true; } else { /* Check if the FEC has been statically defined in the config */ is_configured_fec = fec->flags & FEC_FLAG_CONFIGURED; /* Client may register same FEC with different label index. */ new_client = (listnode_lookup(fec->client_list, client) == NULL); if (!new_client && fec->label_index == label_index && fec->label == label) /* Duplicate register */ return 0; /* Save current label, update the FEC */ old_label = fec->label; fec->label_index = label_index; } if (new_client) listnode_add(fec->client_list, client); if (IS_ZEBRA_DEBUG_MPLS) zlog_debug("FEC %pFX label%s %u %s by client %s%s", p, have_label_index ? " index" : "", have_label_index ? label_index : label, new_client ? "registered" : "updated", zebra_route_string(client->proto), is_configured_fec ? ", but using statically configured label" : ""); /* If not a statically configured FEC, derive the local label * from label index or use the provided label */ if (!is_configured_fec) { if (have_label_index) fec_derive_label_from_index(zvrf, fec); else fec->label = label; /* If no label change, exit. */ if (fec->label == old_label) return 0; label_change = true; } /* If new client or label change, update client and install or uninstall * label forwarding entry as needed. */ /* Inform client of label, if needed. */ if ((new_client && fec->label != MPLS_INVALID_LABEL) || label_change) { if (IS_ZEBRA_DEBUG_MPLS) zlog_debug("Update client label %u", fec->label); fec_send(fec, client); } if (new_client || label_change) return fec_change_update_lsp(zvrf, fec, old_label); return 0; } /* * Deregistration from a client for the label binding for a FEC. The FEC * itself is deleted if no other registered clients exist and there is no * label bound to the FEC. */ int zebra_mpls_fec_unregister(struct zebra_vrf *zvrf, struct prefix *p, struct zserv *client) { struct route_table *table; struct zebra_fec *fec; table = zvrf->fec_table[family2afi(PREFIX_FAMILY(p))]; if (!table) return -1; fec = fec_find(table, p); if (!fec) { flog_err(EC_ZEBRA_FEC_RM_FAILED, "Failed to find FEC %pFX upon unregister, client %s", p, zebra_route_string(client->proto)); return -1; } listnode_delete(fec->client_list, client); if (IS_ZEBRA_DEBUG_MPLS) zlog_debug("FEC %pFX unregistered by client %s", p, zebra_route_string(client->proto)); /* If not a configured entry, delete the FEC if no other clients. Before * deleting, see if any LSP needs to be uninstalled. */ if (!(fec->flags & FEC_FLAG_CONFIGURED) && list_isempty(fec->client_list)) { mpls_label_t old_label = fec->label; fec->label = MPLS_INVALID_LABEL; /* reset */ fec_change_update_lsp(zvrf, fec, old_label); fec_del(fec); } return 0; } /* * Cleanup any FECs registered by this client. */ static int zebra_mpls_cleanup_fecs_for_client(struct zserv *client) { struct zebra_vrf *zvrf = zebra_vrf_lookup_by_id(VRF_DEFAULT); struct route_node *rn; struct zebra_fec *fec; struct listnode *node; struct zserv *fec_client; int af; for (af = AFI_IP; af < AFI_MAX; af++) { if (zvrf->fec_table[af] == NULL) continue; for (rn = route_top(zvrf->fec_table[af]); rn; rn = route_next(rn)) { fec = rn->info; if (!fec || list_isempty(fec->client_list)) continue; for (ALL_LIST_ELEMENTS_RO(fec->client_list, node, fec_client)) { if (fec_client == client) { listnode_delete(fec->client_list, fec_client); if (!(fec->flags & FEC_FLAG_CONFIGURED) && list_isempty(fec->client_list)) fec_del(fec); break; } } } } return 0; } struct lsp_uninstall_args { struct hash *lsp_table; enum lsp_types_t type; }; /* * Cleanup MPLS labels registered by this client. */ static int zebra_mpls_cleanup_zclient_labels(struct zserv *client) { struct vrf *vrf; struct zebra_vrf *zvrf; RB_FOREACH (vrf, vrf_id_head, &vrfs_by_id) { struct lsp_uninstall_args args; zvrf = vrf->info; if (!zvrf) continue; /* Cleanup LSPs. */ args.lsp_table = zvrf->lsp_table; args.type = lsp_type_from_re_type(client->proto); hash_iterate(zvrf->lsp_table, mpls_lsp_uninstall_all_type, &args); /* Cleanup FTNs. */ mpls_ftn_uninstall_all(zvrf, AFI_IP, lsp_type_from_re_type(client->proto)); mpls_ftn_uninstall_all(zvrf, AFI_IP6, lsp_type_from_re_type(client->proto)); } return 0; } /* * Return FEC (if any) to which this label is bound. * Note: Only works for per-prefix binding and when the label is not * implicit-null. * TODO: Currently walks entire table, can optimize later with another * hash.. */ struct zebra_fec *zebra_mpls_fec_for_label(struct zebra_vrf *zvrf, mpls_label_t label) { struct route_node *rn; struct zebra_fec *fec; int af; for (af = AFI_IP; af < AFI_MAX; af++) { if (zvrf->fec_table[af] == NULL) continue; for (rn = route_top(zvrf->fec_table[af]); rn; rn = route_next(rn)) { if (!rn->info) continue; fec = rn->info; if (fec->label == label) return fec; } } return NULL; } /* * Inform if specified label is currently bound to a FEC or not. */ int zebra_mpls_label_already_bound(struct zebra_vrf *zvrf, mpls_label_t label) { return (zebra_mpls_fec_for_label(zvrf, label) ? 1 : 0); } /* * Add static FEC to label binding. If there are clients registered for this * FEC, notify them. If there are labeled routes for this FEC, install the * label forwarding entry. */ int zebra_mpls_static_fec_add(struct zebra_vrf *zvrf, struct prefix *p, mpls_label_t in_label) { struct route_table *table; struct zebra_fec *fec; mpls_label_t old_label; int ret = 0; table = zvrf->fec_table[family2afi(PREFIX_FAMILY(p))]; if (!table) return -1; /* Update existing FEC or create a new one. */ fec = fec_find(table, p); if (!fec) { fec = fec_add(table, p, in_label, FEC_FLAG_CONFIGURED, MPLS_INVALID_LABEL_INDEX); if (!fec) { flog_err(EC_ZEBRA_FEC_ADD_FAILED, "Failed to add FEC %pFX upon config", p); return -1; } if (IS_ZEBRA_DEBUG_MPLS) zlog_debug("Add fec %pFX label %u", p, in_label); } else { fec->flags |= FEC_FLAG_CONFIGURED; if (fec->label == in_label) /* Duplicate config */ return 0; /* Label change, update clients. */ old_label = fec->label; if (IS_ZEBRA_DEBUG_MPLS) zlog_debug("Update fec %pFX new label %u", p, in_label); fec->label = in_label; fec_update_clients(fec); /* Update label forwarding entries appropriately */ ret = fec_change_update_lsp(zvrf, fec, old_label); } return ret; } /* * Remove static FEC to label binding. If there are no clients registered * for this FEC, delete the FEC; else notify clients * Note: Upon delete of static binding, if label index exists for this FEC, * client may need to be updated with derived label. */ int zebra_mpls_static_fec_del(struct zebra_vrf *zvrf, struct prefix *p) { struct route_table *table; struct zebra_fec *fec; mpls_label_t old_label; table = zvrf->fec_table[family2afi(PREFIX_FAMILY(p))]; if (!table) return -1; fec = fec_find(table, p); if (!fec) { flog_err(EC_ZEBRA_FEC_RM_FAILED, "Failed to find FEC %pFX upon delete", p); return -1; } if (IS_ZEBRA_DEBUG_MPLS) { zlog_debug("Delete fec %pFX label %u label index %u", p, fec->label, fec->label_index); } old_label = fec->label; fec->flags &= ~FEC_FLAG_CONFIGURED; fec->label = MPLS_INVALID_LABEL; /* If no client exists, just delete the FEC. */ if (list_isempty(fec->client_list)) { fec_del(fec); return 0; } /* Derive the local label (from label index) or reset it. */ fec_derive_label_from_index(zvrf, fec); /* If there is a label change, update clients. */ if (fec->label == old_label) return 0; fec_update_clients(fec); /* Update label forwarding entries appropriately */ return fec_change_update_lsp(zvrf, fec, old_label); } /* * Display MPLS FEC to label binding configuration (VTY command handler). */ int zebra_mpls_write_fec_config(struct vty *vty, struct zebra_vrf *zvrf) { struct route_node *rn; int af; struct zebra_fec *fec; int write = 0; for (af = AFI_IP; af < AFI_MAX; af++) { if (zvrf->fec_table[af] == NULL) continue; for (rn = route_top(zvrf->fec_table[af]); rn; rn = route_next(rn)) { if (!rn->info) continue; char lstr[BUFSIZ]; fec = rn->info; if (!(fec->flags & FEC_FLAG_CONFIGURED)) continue; write = 1; if (fec->label == MPLS_LABEL_IPV4_EXPLICIT_NULL || fec->label == MPLS_LABEL_IPV6_EXPLICIT_NULL) strlcpy(lstr, "explicit-null", sizeof(lstr)); else if (fec->label == MPLS_LABEL_IMPLICIT_NULL) strlcpy(lstr, "implicit-null", sizeof(lstr)); else snprintf(lstr, sizeof(lstr), "%d", fec->label); vty_out(vty, "mpls label bind %pFX %s\n", &rn->p, lstr); } } return write; } /* * Display MPLS FEC to label binding (VTY command handler). */ void zebra_mpls_print_fec_table(struct vty *vty, struct zebra_vrf *zvrf) { struct route_node *rn; int af; for (af = AFI_IP; af < AFI_MAX; af++) { if (zvrf->fec_table[af] == NULL) continue; for (rn = route_top(zvrf->fec_table[af]); rn; rn = route_next(rn)) { if (!rn->info) continue; fec_print(rn->info, vty); } } } /* * Display MPLS FEC to label binding for a specific FEC (VTY command handler). */ void zebra_mpls_print_fec(struct vty *vty, struct zebra_vrf *zvrf, struct prefix *p) { struct route_table *table; struct route_node *rn; table = zvrf->fec_table[family2afi(PREFIX_FAMILY(p))]; if (!table) return; apply_mask(p); rn = route_node_lookup(table, p); if (!rn) return; route_unlock_node(rn); if (!rn->info) return; fec_print(rn->info, vty); } static void mpls_zebra_nhe_update(struct route_entry *re, afi_t afi, struct nhg_hash_entry *new_nhe) { struct nhg_hash_entry *nhe; nhe = zebra_nhg_rib_find_nhe(new_nhe, afi); route_entry_update_nhe(re, nhe); } static bool ftn_update_nexthop(bool add_p, struct nexthop *nexthop, enum lsp_types_t type, const struct zapi_nexthop *znh) { if (add_p && nexthop->nh_label_type == ZEBRA_LSP_NONE) nexthop_add_labels(nexthop, type, znh->label_num, znh->labels); else if (!add_p && nexthop->nh_label_type == type) nexthop_del_labels(nexthop); else return false; return true; } void zebra_mpls_ftn_uninstall(struct zebra_vrf *zvrf, enum lsp_types_t type, struct prefix *prefix, uint8_t route_type, uint8_t route_instance) { struct route_table *table; struct route_node *rn; struct route_entry *re; struct nexthop *nexthop; struct nhg_hash_entry *new_nhe; afi_t afi = family2afi(prefix->family); /* Lookup table. */ table = zebra_vrf_table(afi, SAFI_UNICAST, zvrf_id(zvrf)); if (!table) return; /* Lookup existing route */ rn = route_node_get(table, prefix); RNODE_FOREACH_RE (rn, re) { if (CHECK_FLAG(re->status, ROUTE_ENTRY_REMOVED)) continue; if (re->type == route_type && re->instance == route_instance) break; } if (re == NULL) return; /* * Nexthops are now shared by multiple routes, so we have to make * a local copy, modify the copy, then update the route. */ new_nhe = zebra_nhe_copy(re->nhe, 0); for (nexthop = new_nhe->nhg.nexthop; nexthop; nexthop = nexthop->next) nexthop_del_labels(nexthop); /* Update backup routes/nexthops also, if present. */ if (zebra_nhg_get_backup_nhg(new_nhe) != NULL) { for (nexthop = new_nhe->backup_info->nhe->nhg.nexthop; nexthop; nexthop = nexthop->next) nexthop_del_labels(nexthop); } SET_FLAG(re->status, ROUTE_ENTRY_CHANGED); SET_FLAG(re->status, ROUTE_ENTRY_LABELS_CHANGED); /* This will create (or ref) a new nhe, so we will discard the local * temporary nhe */ mpls_zebra_nhe_update(re, afi, new_nhe); zebra_nhg_free(new_nhe); rib_queue_add(rn); } /* * Iterate through a list of nexthops, for a match for 'znh'. If found, * update its labels according to 'add_p', and return 'true' if successful. */ static bool ftn_update_znh(bool add_p, enum lsp_types_t type, struct nexthop *head, const struct zapi_nexthop *znh) { bool found = false, success = false; struct nexthop *nexthop; for (nexthop = head; nexthop; nexthop = nexthop->next) { switch (nexthop->type) { case NEXTHOP_TYPE_IPV4: case NEXTHOP_TYPE_IPV4_IFINDEX: if (znh->type != NEXTHOP_TYPE_IPV4 && znh->type != NEXTHOP_TYPE_IPV4_IFINDEX) continue; if (!IPV4_ADDR_SAME(&nexthop->gate.ipv4, &znh->gate.ipv4)) continue; if (nexthop->type == NEXTHOP_TYPE_IPV4_IFINDEX && nexthop->ifindex != znh->ifindex) continue; found = true; if (!ftn_update_nexthop(add_p, nexthop, type, znh)) break; success = true; break; case NEXTHOP_TYPE_IPV6: case NEXTHOP_TYPE_IPV6_IFINDEX: if (znh->type != NEXTHOP_TYPE_IPV6 && znh->type != NEXTHOP_TYPE_IPV6_IFINDEX) continue; if (!IPV6_ADDR_SAME(&nexthop->gate.ipv6, &znh->gate.ipv6)) continue; if (nexthop->type == NEXTHOP_TYPE_IPV6_IFINDEX && nexthop->ifindex != znh->ifindex) continue; found = true; if (!ftn_update_nexthop(add_p, nexthop, type, znh)) break; success = true; break; case NEXTHOP_TYPE_IFINDEX: if (znh->type != NEXTHOP_TYPE_IFINDEX) continue; if (nexthop->ifindex != znh->ifindex) continue; found = true; if (!ftn_update_nexthop(add_p, nexthop, type, znh)) break; success = true; break; case NEXTHOP_TYPE_BLACKHOLE: /* Not valid */ continue; } if (found) break; } return success; } /* * Install/uninstall LSP and (optionally) FEC-To-NHLFE (FTN) bindings, * using zapi message info. * There are several changes that need to be made, in several zebra * data structures, so we want to do all the work required at once. */ void zebra_mpls_zapi_labels_process(bool add_p, struct zebra_vrf *zvrf, const struct zapi_labels *zl) { int i, counter, ret = 0; char buf[NEXTHOP_STRLEN]; const struct zapi_nexthop *znh; struct route_table *table; struct route_node *rn = NULL; struct route_entry *re = NULL; struct nhg_hash_entry *new_nhe = NULL; bool found; afi_t afi = AFI_IP; const struct prefix *prefix = NULL; struct hash *lsp_table; struct zebra_ile tmp_ile; struct zebra_lsp *lsp = NULL; /* Prep LSP for add case */ if (add_p) { /* Lookup table. */ lsp_table = zvrf->lsp_table; if (!lsp_table) return; /* Find or create LSP object */ tmp_ile.in_label = zl->local_label; lsp = hash_get(lsp_table, &tmp_ile, lsp_alloc); } /* Prep for route/FEC update if requested */ if (CHECK_FLAG(zl->message, ZAPI_LABELS_FTN)) { prefix = &zl->route.prefix; afi = family2afi(prefix->family); /* Lookup table. */ table = zebra_vrf_table(afi, SAFI_UNICAST, zvrf_id(zvrf)); if (table) { /* Lookup existing route */ rn = route_node_get(table, prefix); RNODE_FOREACH_RE(rn, re) { if (CHECK_FLAG(re->status, ROUTE_ENTRY_REMOVED)) continue; if (re->type == zl->route.type && re->instance == zl->route.instance) break; } } if (re) { /* * Copy over current nexthops into a temporary group. * We can't just change the values here since the nhgs * are shared and if the labels change, we'll need * to find or create a new nhg. We need to create * a whole temporary group, make changes to it, * then attach that to the route. */ new_nhe = zebra_nhe_copy(re->nhe, 0); } else { /* * The old version of the zapi code * attempted to manage LSPs before trying to * find a route/FEC, so we'll continue that way. */ if (IS_ZEBRA_DEBUG_RECV || IS_ZEBRA_DEBUG_MPLS) zlog_debug( "%s: FTN update requested: no route for prefix %pFX", __func__, prefix); } } /* * Use info from the zapi nexthops to add/replace/remove LSP/FECs */ counter = 0; for (i = 0; i < zl->nexthop_num; i++) { znh = &zl->nexthops[i]; /* Attempt LSP update */ if (add_p) ret = lsp_znh_install(lsp, zl->type, znh); else ret = mpls_lsp_uninstall(zvrf, zl->type, zl->local_label, znh->type, &znh->gate, znh->ifindex, false); if (ret < 0) { if (IS_ZEBRA_DEBUG_RECV || IS_ZEBRA_DEBUG_MPLS) { zapi_nexthop2str(znh, buf, sizeof(buf)); zlog_debug("%s: Unable to %sinstall LSP: label %u, znh %s", __func__, (add_p ? "" : "un"), zl->local_label, buf); } continue; } /* Attempt route/FEC update if requested */ if (re == NULL) continue; /* Search the route's nexthops for a match, and update it. */ found = ftn_update_znh(add_p, zl->type, new_nhe->nhg.nexthop, znh); if (found) { counter++; } else if (IS_ZEBRA_DEBUG_RECV | IS_ZEBRA_DEBUG_MPLS) { zapi_nexthop2str(znh, buf, sizeof(buf)); zlog_debug( "%s: Unable to update FEC: prefix %pFX, label %u, znh %s", __func__, prefix, zl->local_label, buf); } } /* * Process backup LSPs/nexthop entries also. We associate backup * LSP info with backup nexthops. */ if (!CHECK_FLAG(zl->message, ZAPI_LABELS_HAS_BACKUPS)) goto znh_done; for (i = 0; i < zl->backup_nexthop_num; i++) { znh = &zl->backup_nexthops[i]; if (add_p) ret = lsp_backup_znh_install(lsp, zl->type, znh); else ret = mpls_lsp_uninstall(zvrf, zl->type, zl->local_label, znh->type, &znh->gate, znh->ifindex, true); if (ret < 0) { if (IS_ZEBRA_DEBUG_RECV || IS_ZEBRA_DEBUG_MPLS) { zapi_nexthop2str(znh, buf, sizeof(buf)); zlog_debug("%s: Unable to %sinstall backup LSP: label %u, znh %s", __func__, (add_p ? "" : "un"), zl->local_label, buf); } continue; } /* Attempt backup nexthop/FEC update if requested */ if (re == NULL || zebra_nhg_get_backup_nhg(new_nhe) == NULL) continue; /* Search the route's backup nexthops for a match * and update it. */ found = ftn_update_znh(add_p, zl->type, new_nhe->backup_info->nhe->nhg.nexthop, znh); if (found) { counter++; } else if (IS_ZEBRA_DEBUG_RECV | IS_ZEBRA_DEBUG_MPLS) { zapi_nexthop2str(znh, buf, sizeof(buf)); zlog_debug( "%s: Unable to update backup FEC: prefix %pFX, label %u, znh %s", __func__, prefix, zl->local_label, buf); } } znh_done: /* * If we made changes, update the route, and schedule it * for rib processing */ if (re != NULL && counter > 0) { assert(rn != NULL); SET_FLAG(re->status, ROUTE_ENTRY_CHANGED); SET_FLAG(re->status, ROUTE_ENTRY_LABELS_CHANGED); mpls_zebra_nhe_update(re, afi, new_nhe); rib_queue_add(rn); } if (new_nhe) zebra_nhg_free(new_nhe); } /* * Install/update a NHLFE for an LSP in the forwarding table. This may be * a new LSP entry or a new NHLFE for an existing in-label or an update of * the out-label for an existing NHLFE (update case). */ static struct zebra_nhlfe * lsp_add_nhlfe(struct zebra_lsp *lsp, enum lsp_types_t type, uint8_t num_out_labels, const mpls_label_t *out_labels, enum nexthop_types_t gtype, const union g_addr *gate, ifindex_t ifindex, vrf_id_t vrf_id, bool is_backup) { struct zebra_nhlfe *nhlfe; char buf[MPLS_LABEL_STRLEN]; const char *backup_str; if (is_backup) { nhlfe = nhlfe_find(&lsp->backup_nhlfe_list, type, gtype, gate, ifindex); backup_str = "backup "; } else { nhlfe = nhlfe_find(&lsp->nhlfe_list, type, gtype, gate, ifindex); backup_str = ""; } if (nhlfe) { struct nexthop *nh = nhlfe->nexthop; assert(nh); /* Clear deleted flag (in case it was set) */ UNSET_FLAG(nhlfe->flags, NHLFE_FLAG_DELETED); if (!nh->nh_label || num_out_labels == 0) /* No change */ return nhlfe; if (nh->nh_label && nh->nh_label->num_labels == num_out_labels && !memcmp(nh->nh_label->label, out_labels, sizeof(mpls_label_t) * num_out_labels)) /* No change */ return nhlfe; if (IS_ZEBRA_DEBUG_MPLS) { char buf2[MPLS_LABEL_STRLEN]; char buf3[MPLS_LABEL_STRLEN]; nhlfe2str(nhlfe, buf, sizeof(buf)); mpls_label2str(num_out_labels, out_labels, buf2, sizeof(buf2), 0, 0); mpls_label2str(nh->nh_label->num_labels, nh->nh_label->label, buf3, sizeof(buf3), nh->nh_label_type, 0); zlog_debug("LSP in-label %u type %d %snexthop %s out-label(s) changed to %s (old %s)", lsp->ile.in_label, type, backup_str, buf, buf2, buf3); } /* Update out label(s), trigger processing. */ if (nh->nh_label && nh->nh_label->num_labels == num_out_labels) memcpy(nh->nh_label->label, out_labels, sizeof(mpls_label_t) * num_out_labels); else { nexthop_del_labels(nh); nexthop_add_labels(nh, type, num_out_labels, out_labels); } } else { /* Add LSP entry to this nexthop */ nhlfe = nhlfe_add(lsp, type, gtype, gate, ifindex, vrf_id, num_out_labels, out_labels, is_backup); if (!nhlfe) return NULL; if (IS_ZEBRA_DEBUG_MPLS) { char buf2[MPLS_LABEL_STRLEN]; nhlfe2str(nhlfe, buf, sizeof(buf)); if (num_out_labels) mpls_label2str(num_out_labels, out_labels, buf2, sizeof(buf2), 0, 0); else snprintf(buf2, sizeof(buf2), "-"); zlog_debug("Add LSP in-label %u type %d %snexthop %s out-label(s) %s", lsp->ile.in_label, type, backup_str, buf, buf2); } lsp->addr_family = NHLFE_FAMILY(nhlfe); } /* Mark NHLFE, queue LSP for processing. */ SET_FLAG(nhlfe->flags, NHLFE_FLAG_CHANGED); return nhlfe; } /* * Install an LSP and forwarding entry; used primarily * from vrf zapi message processing. * TODO: handle vrf_id parameter when mpls API extends to interface or SRTE * changes */ int mpls_lsp_install(struct zebra_vrf *zvrf, enum lsp_types_t type, mpls_label_t in_label, uint8_t num_out_labels, const mpls_label_t *out_labels, enum nexthop_types_t gtype, const union g_addr *gate, ifindex_t ifindex) { struct hash *lsp_table; struct zebra_ile tmp_ile; struct zebra_lsp *lsp; struct zebra_nhlfe *nhlfe; /* Lookup table. */ lsp_table = zvrf->lsp_table; if (!lsp_table) return -1; /* Find or create LSP object */ tmp_ile.in_label = in_label; lsp = hash_get(lsp_table, &tmp_ile, lsp_alloc); nhlfe = lsp_add_nhlfe(lsp, type, num_out_labels, out_labels, gtype, gate, ifindex, VRF_DEFAULT, false /*backup*/); if (nhlfe == NULL) return -1; /* Queue LSP for processing. */ if (lsp_processq_add(lsp)) return -1; return 0; } /* * Install or replace NHLFE, using info from zapi nexthop */ static int lsp_znh_install(struct zebra_lsp *lsp, enum lsp_types_t type, const struct zapi_nexthop *znh) { struct zebra_nhlfe *nhlfe; nhlfe = lsp_add_nhlfe(lsp, type, znh->label_num, znh->labels, znh->type, &znh->gate, znh->ifindex, znh->vrf_id, false /*backup*/); if (nhlfe == NULL) return -1; /* Update backup info if present */ if (CHECK_FLAG(znh->flags, ZAPI_NEXTHOP_FLAG_HAS_BACKUP)) { if (znh->backup_num > NEXTHOP_MAX_BACKUPS) { nhlfe_del(nhlfe); return -1; } nhlfe->nexthop->backup_num = znh->backup_num; memcpy(nhlfe->nexthop->backup_idx, znh->backup_idx, znh->backup_num); SET_FLAG(nhlfe->nexthop->flags, NEXTHOP_FLAG_HAS_BACKUP); } else { /* Ensure there's no stale backup info */ UNSET_FLAG(nhlfe->nexthop->flags, NEXTHOP_FLAG_HAS_BACKUP); nhlfe->nexthop->backup_num = 0; } /* Queue LSP for processing. */ if (lsp_processq_add(lsp)) return -1; return 0; } /* * Install/update backup NHLFE for an LSP, using info from a zapi message. */ static int lsp_backup_znh_install(struct zebra_lsp *lsp, enum lsp_types_t type, const struct zapi_nexthop *znh) { struct zebra_nhlfe *nhlfe; nhlfe = lsp_add_nhlfe(lsp, type, znh->label_num, znh->labels, znh->type, &znh->gate, znh->ifindex, znh->vrf_id, true /*backup*/); if (nhlfe == NULL) { if (IS_ZEBRA_DEBUG_MPLS) zlog_debug("%s: unable to add backup nhlfe, label: %u", __func__, lsp->ile.in_label); return -1; } /* Queue LSP for processing. */ if (lsp_processq_add(lsp)) return -1; return 0; } struct zebra_lsp *mpls_lsp_find(struct zebra_vrf *zvrf, mpls_label_t in_label) { struct hash *lsp_table; struct zebra_ile tmp_ile; /* Lookup table. */ lsp_table = zvrf->lsp_table; if (!lsp_table) return NULL; /* If entry is not present, exit. */ tmp_ile.in_label = in_label; return hash_lookup(lsp_table, &tmp_ile); } /* * Uninstall a particular NHLFE in the forwarding table. If this is * the only NHLFE, the entire LSP forwarding entry has to be deleted. */ int mpls_lsp_uninstall(struct zebra_vrf *zvrf, enum lsp_types_t type, mpls_label_t in_label, enum nexthop_types_t gtype, const union g_addr *gate, ifindex_t ifindex, bool backup_p) { struct hash *lsp_table; struct zebra_ile tmp_ile; struct zebra_lsp *lsp; struct zebra_nhlfe *nhlfe; char buf[NEXTHOP_STRLEN]; bool schedule_lsp = false; /* Lookup table. */ lsp_table = zvrf->lsp_table; if (!lsp_table) return -1; /* If entry is not present, exit. */ tmp_ile.in_label = in_label; lsp = hash_lookup(lsp_table, &tmp_ile); if (!lsp) return 0; if (backup_p) nhlfe = nhlfe_find(&lsp->backup_nhlfe_list, type, gtype, gate, ifindex); else nhlfe = nhlfe_find(&lsp->nhlfe_list, type, gtype, gate, ifindex); if (!nhlfe) return 0; if (IS_ZEBRA_DEBUG_MPLS) { nhlfe2str(nhlfe, buf, sizeof(buf)); zlog_debug("Del LSP in-label %u type %d nexthop %s flags 0x%x", in_label, type, buf, nhlfe->flags); } if (CHECK_FLAG(lsp->flags, LSP_FLAG_INSTALLED) || CHECK_FLAG(nhlfe->flags, NHLFE_FLAG_INSTALLED)) schedule_lsp = true; /* Mark NHLFE for delete or directly delete, as appropriate. */ if (schedule_lsp) { SET_FLAG(nhlfe->flags, NHLFE_FLAG_DELETED); UNSET_FLAG(nhlfe->flags, NHLFE_FLAG_CHANGED); if (IS_ZEBRA_DEBUG_MPLS) zlog_debug("Schedule LSP in-label %u flags 0x%x", lsp->ile.in_label, lsp->flags); if (lsp_processq_add(lsp)) return -1; } else { nhlfe_del(nhlfe); /* Free LSP entry if no other NHLFEs and not scheduled. */ lsp_check_free(lsp_table, &lsp); } return 0; } int mpls_lsp_uninstall_all_vrf(struct zebra_vrf *zvrf, enum lsp_types_t type, mpls_label_t in_label) { struct hash *lsp_table; struct zebra_ile tmp_ile; struct zebra_lsp *lsp; /* Lookup table. */ lsp_table = zvrf->lsp_table; if (!lsp_table) return -1; /* If entry is not present, exit. */ tmp_ile.in_label = in_label; lsp = hash_lookup(lsp_table, &tmp_ile); if (!lsp) return 0; return mpls_lsp_uninstall_all(lsp_table, lsp, type); } /* * Uninstall all NHLFEs for a particular LSP forwarding entry. * If no other NHLFEs exist, the entry would be deleted. */ static void mpls_lsp_uninstall_all_type(struct hash_bucket *bucket, void *ctxt) { struct lsp_uninstall_args *args = ctxt; struct zebra_lsp *lsp; struct hash *lsp_table; lsp = (struct zebra_lsp *)bucket->data; if (nhlfe_list_first(&lsp->nhlfe_list) == NULL) return; lsp_table = args->lsp_table; if (!lsp_table) return; mpls_lsp_uninstall_all(lsp_table, lsp, args->type); } /* * Uninstall all FEC-To-NHLFE (FTN) bindings of the given address-family and * LSP type. */ static void mpls_ftn_uninstall_all(struct zebra_vrf *zvrf, int afi, enum lsp_types_t lsp_type) { struct route_table *table; struct route_node *rn; struct route_entry *re; struct nexthop *nexthop; struct nexthop_group *nhg; bool update; /* Process routes of interested address-families. */ table = zebra_vrf_table(afi, SAFI_UNICAST, zvrf_id(zvrf)); if (!table) return; for (rn = route_top(table); rn; rn = route_next(rn)) { update = false; RNODE_FOREACH_RE (rn, re) { struct nhg_hash_entry *new_nhe; new_nhe = zebra_nhe_copy(re->nhe, 0); nhg = &new_nhe->nhg; for (nexthop = nhg->nexthop; nexthop; nexthop = nexthop->next) { if (nexthop->nh_label_type != lsp_type) continue; nexthop_del_labels(nexthop); SET_FLAG(re->status, ROUTE_ENTRY_CHANGED); SET_FLAG(re->status, ROUTE_ENTRY_LABELS_CHANGED); update = true; } /* Check for backup info and update that also */ nhg = zebra_nhg_get_backup_nhg(new_nhe); if (nhg != NULL) { for (nexthop = nhg->nexthop; nexthop; nexthop = nexthop->next) { if (nexthop->nh_label_type != lsp_type) continue; nexthop_del_labels(nexthop); SET_FLAG(re->status, ROUTE_ENTRY_CHANGED); SET_FLAG(re->status, ROUTE_ENTRY_LABELS_CHANGED); update = true; } } if (CHECK_FLAG(re->status, ROUTE_ENTRY_LABELS_CHANGED)) mpls_zebra_nhe_update(re, afi, new_nhe); zebra_nhg_free(new_nhe); } if (update) rib_queue_add(rn); } } #if defined(HAVE_CUMULUS) /* * Check that the label values used in LSP creation are consistent. The * main criteria is that if there is ECMP, the label operation must still * be consistent - i.e., all paths either do a swap or do PHP. This is due * to current HW restrictions. */ int zebra_mpls_lsp_label_consistent(struct zebra_vrf *zvrf, mpls_label_t in_label, mpls_label_t out_label, enum nexthop_types_t gtype, union g_addr *gate, ifindex_t ifindex) { struct hash *slsp_table; struct zebra_ile tmp_ile; struct zebra_lsp *lsp; struct zebra_nhlfe *nhlfe; const struct nexthop *nh; /* Lookup table. */ slsp_table = zvrf->slsp_table; if (!slsp_table) return 0; /* If entry is not present, exit. */ tmp_ile.in_label = in_label; lsp = hash_lookup(slsp_table, &tmp_ile); if (!lsp) return 1; nhlfe = nhlfe_find(&lsp->nhlfe_list, ZEBRA_LSP_STATIC, gtype, gate, ifindex); if (nhlfe) { nh = nhlfe->nexthop; if (nh == NULL || nh->nh_label == NULL) return 0; if (nh->nh_label->label[0] == out_label) return 1; /* If not only NHLFE, cannot allow label change. */ if (nhlfe != nhlfe_list_first(&lsp->nhlfe_list) || nhlfe_list_next(&lsp->nhlfe_list, nhlfe) != NULL) return 0; } else { /* If other NHLFEs exist, label operation must match. */ nhlfe = nhlfe_list_first(&lsp->nhlfe_list); if (nhlfe != NULL) { int cur_op, new_op; nh = nhlfe->nexthop; if (nh == NULL || nh->nh_label == NULL) return 0; cur_op = (nh->nh_label->label[0] == MPLS_LABEL_IMPLICIT_NULL); new_op = (out_label == MPLS_LABEL_IMPLICIT_NULL); if (cur_op != new_op) return 0; } } /* Label values are good. */ return 1; } #endif /* HAVE_CUMULUS */ /* * Add static LSP entry. This may be the first entry for this incoming label * or an additional nexthop; an existing entry may also have outgoing label * changed. * Note: The label operation (swap or PHP) is common for the LSP entry (all * NHLFEs). */ int zebra_mpls_static_lsp_add(struct zebra_vrf *zvrf, mpls_label_t in_label, mpls_label_t out_label, enum nexthop_types_t gtype, union g_addr *gate, ifindex_t ifindex) { struct hash *slsp_table; struct zebra_ile tmp_ile; struct zebra_lsp *lsp; struct zebra_nhlfe *nhlfe; char buf[BUFSIZ]; /* Lookup table. */ slsp_table = zvrf->slsp_table; if (!slsp_table) return -1; /* Find or create LSP. */ tmp_ile.in_label = in_label; lsp = hash_get(slsp_table, &tmp_ile, lsp_alloc); nhlfe = nhlfe_find(&lsp->nhlfe_list, ZEBRA_LSP_STATIC, gtype, gate, ifindex); if (nhlfe) { struct nexthop *nh = nhlfe->nexthop; assert(nh); assert(nh->nh_label); /* Compare existing nexthop */ if (nh->nh_label->num_labels == 1 && nh->nh_label->label[0] == out_label) /* No change */ return 0; if (IS_ZEBRA_DEBUG_MPLS) { nhlfe2str(nhlfe, buf, sizeof(buf)); zlog_debug( "Upd static LSP in-label %u nexthop %s out-label %u (old %u)", in_label, buf, out_label, nh->nh_label->label[0]); } if (nh->nh_label->num_labels == 1) nh->nh_label->label[0] = out_label; else { nexthop_del_labels(nh); nexthop_add_labels(nh, ZEBRA_LSP_STATIC, 1, &out_label); } } else { /* Add static LSP entry to this nexthop */ nhlfe = nhlfe_add(lsp, ZEBRA_LSP_STATIC, gtype, gate, ifindex, VRF_DEFAULT, 1, &out_label, false /*backup*/); if (!nhlfe) return -1; if (IS_ZEBRA_DEBUG_MPLS) { nhlfe2str(nhlfe, buf, sizeof(buf)); zlog_debug( "Add static LSP in-label %u nexthop %s out-label %u", in_label, buf, out_label); } } /* (Re)Install LSP in the main table. */ if (mpls_lsp_install(zvrf, ZEBRA_LSP_STATIC, in_label, 1, &out_label, gtype, gate, ifindex)) return -1; return 0; } /* * Delete static LSP entry. This may be the delete of one particular * NHLFE for this incoming label or the delete of the entire entry (i.e., * all NHLFEs). * NOTE: Delete of the only NHLFE will also end up deleting the entire * LSP configuration. */ int zebra_mpls_static_lsp_del(struct zebra_vrf *zvrf, mpls_label_t in_label, enum nexthop_types_t gtype, union g_addr *gate, ifindex_t ifindex) { struct hash *slsp_table; struct zebra_ile tmp_ile; struct zebra_lsp *lsp; struct zebra_nhlfe *nhlfe; /* Lookup table. */ slsp_table = zvrf->slsp_table; if (!slsp_table) return -1; /* If entry is not present, exit. */ tmp_ile.in_label = in_label; lsp = hash_lookup(slsp_table, &tmp_ile); if (!lsp) return 0; /* Is it delete of entire LSP or a specific NHLFE? */ if (gtype == NEXTHOP_TYPE_BLACKHOLE) { if (IS_ZEBRA_DEBUG_MPLS) zlog_debug("Del static LSP in-label %u", in_label); /* Uninstall entire LSP from the main table. */ mpls_static_lsp_uninstall_all(zvrf, in_label); /* Delete all static NHLFEs */ frr_each_safe(nhlfe_list, &lsp->nhlfe_list, nhlfe) { nhlfe_del(nhlfe); } } else { /* Find specific NHLFE, exit if not found. */ nhlfe = nhlfe_find(&lsp->nhlfe_list, ZEBRA_LSP_STATIC, gtype, gate, ifindex); if (!nhlfe) return 0; if (IS_ZEBRA_DEBUG_MPLS) { char buf[BUFSIZ]; nhlfe2str(nhlfe, buf, sizeof(buf)); zlog_debug("Del static LSP in-label %u nexthop %s", in_label, buf); } /* Uninstall LSP from the main table. */ mpls_lsp_uninstall(zvrf, ZEBRA_LSP_STATIC, in_label, gtype, gate, ifindex, false); /* Delete static LSP NHLFE */ nhlfe_del(nhlfe); } /* Remove entire static LSP entry if no NHLFE - valid in either case * above. */ if (nhlfe_list_first(&lsp->nhlfe_list) == NULL) { lsp = hash_release(slsp_table, &tmp_ile); lsp_free_nhlfe(lsp); XFREE(MTYPE_LSP, lsp); } return 0; } /* * Schedule all MPLS label forwarding entries for processing. * Called upon changes that may affect one or more of them such as * interface or nexthop state changes. */ void zebra_mpls_lsp_schedule(struct zebra_vrf *zvrf) { if (!zvrf) return; hash_iterate(zvrf->lsp_table, lsp_schedule, NULL); } /* * Display MPLS label forwarding table for a specific LSP * (VTY command handler). */ void zebra_mpls_print_lsp(struct vty *vty, struct zebra_vrf *zvrf, mpls_label_t label, bool use_json) { struct hash *lsp_table; struct zebra_lsp *lsp; struct zebra_ile tmp_ile; json_object *json = NULL; /* Lookup table. */ lsp_table = zvrf->lsp_table; if (!lsp_table) { if (use_json) vty_out(vty, "{}\n"); return; } /* If entry is not present, exit. */ tmp_ile.in_label = label; lsp = hash_lookup(lsp_table, &tmp_ile); if (!lsp) { if (use_json) vty_out(vty, "{}\n"); return; } if (use_json) { json = lsp_json(lsp); vty_json(vty, json); } else lsp_print(vty, lsp); } /* * Display MPLS label forwarding table (VTY command handler). */ void zebra_mpls_print_lsp_table(struct vty *vty, struct zebra_vrf *zvrf, bool use_json) { char buf[BUFSIZ]; json_object *json = NULL; struct zebra_lsp *lsp = NULL; struct zebra_nhlfe *nhlfe = NULL; struct listnode *node = NULL; struct list *lsp_list = hash_get_sorted_list(zvrf->lsp_table, lsp_cmp); if (use_json) { json = json_object_new_object(); for (ALL_LIST_ELEMENTS_RO(lsp_list, node, lsp)) json_object_object_add(json, label2str(lsp->ile.in_label, 0, buf, sizeof(buf)), lsp_json(lsp)); vty_json(vty, json); } else { struct ttable *tt; /* Prepare table. */ tt = ttable_new(&ttable_styles[TTSTYLE_BLANK]); ttable_add_row(tt, "Inbound Label|Type|Nexthop|Outbound Label"); tt->style.cell.rpad = 2; tt->style.corner = '+'; ttable_restyle(tt); ttable_rowseps(tt, 0, BOTTOM, true, '-'); for (ALL_LIST_ELEMENTS_RO(lsp_list, node, lsp)) { frr_each_safe(nhlfe_list, &lsp->nhlfe_list, nhlfe) { struct nexthop *nexthop; const char *out_label_str; char nh_buf[NEXTHOP_STRLEN]; nexthop = nhlfe->nexthop; switch (nexthop->type) { case NEXTHOP_TYPE_IFINDEX: { struct zebra_ns *zns; struct interface *ifp; zns = zebra_ns_lookup(NS_DEFAULT); ifp = if_lookup_by_index_per_ns( zns, nexthop->ifindex); snprintf(nh_buf, sizeof(nh_buf), "%s", ifp ? ifp->name : "Null"); break; } case NEXTHOP_TYPE_IPV4: case NEXTHOP_TYPE_IPV4_IFINDEX: inet_ntop(AF_INET, &nexthop->gate.ipv4, nh_buf, sizeof(nh_buf)); break; case NEXTHOP_TYPE_IPV6: case NEXTHOP_TYPE_IPV6_IFINDEX: inet_ntop(AF_INET6, &nexthop->gate.ipv6, nh_buf, sizeof(nh_buf)); break; case NEXTHOP_TYPE_BLACKHOLE: break; } if (nexthop->type != NEXTHOP_TYPE_IFINDEX && nexthop->nh_label) out_label_str = mpls_label2str( nexthop->nh_label->num_labels, &nexthop->nh_label->label[0], buf, sizeof(buf), nexthop->nh_label_type, 1); else out_label_str = "-"; ttable_add_row(tt, "%u|%s|%s|%s", lsp->ile.in_label, nhlfe_type2str(nhlfe->type), nh_buf, out_label_str); } } /* Dump the generated table. */ if (tt->nrows > 1) { char *table = ttable_dump(tt, "\n"); vty_out(vty, "%s\n", table); XFREE(MTYPE_TMP, table); } ttable_del(tt); } list_delete(&lsp_list); } /* * Create printable string for static LSP configuration. */ static char *nhlfe_config_str(const struct zebra_nhlfe *nhlfe, char *buf, int size) { const struct nexthop *nh; nh = nhlfe->nexthop; buf[0] = '\0'; switch (nh->type) { case NEXTHOP_TYPE_IPV4: case NEXTHOP_TYPE_IPV4_IFINDEX: inet_ntop(AF_INET, &nh->gate.ipv4, buf, size); if (nh->ifindex) strlcat(buf, ifindex2ifname(nh->ifindex, VRF_DEFAULT), size); break; case NEXTHOP_TYPE_IPV6: case NEXTHOP_TYPE_IPV6_IFINDEX: inet_ntop(AF_INET6, &nh->gate.ipv6, buf, size); if (nh->ifindex) strlcat(buf, ifindex2ifname(nh->ifindex, VRF_DEFAULT), size); break; case NEXTHOP_TYPE_IFINDEX: if (nh->ifindex) strlcat(buf, ifindex2ifname(nh->ifindex, VRF_DEFAULT), size); break; case NEXTHOP_TYPE_BLACKHOLE: break; } return buf; } /* * Display MPLS LSP configuration of all static LSPs (VTY command handler). */ int zebra_mpls_write_lsp_config(struct vty *vty, struct zebra_vrf *zvrf) { struct zebra_lsp *lsp; struct zebra_nhlfe *nhlfe; struct nexthop *nh; struct listnode *node; struct list *slsp_list = hash_get_sorted_list(zvrf->slsp_table, lsp_cmp); for (ALL_LIST_ELEMENTS_RO(slsp_list, node, lsp)) { frr_each(nhlfe_list, &lsp->nhlfe_list, nhlfe) { char buf[BUFSIZ]; char lstr[30]; nh = nhlfe->nexthop; if (nh == NULL || nh->nh_label == NULL) continue; nhlfe_config_str(nhlfe, buf, sizeof(buf)); switch (nh->nh_label->label[0]) { case MPLS_LABEL_IPV4_EXPLICIT_NULL: case MPLS_LABEL_IPV6_EXPLICIT_NULL: strlcpy(lstr, "explicit-null", sizeof(lstr)); break; case MPLS_LABEL_IMPLICIT_NULL: strlcpy(lstr, "implicit-null", sizeof(lstr)); break; default: snprintf(lstr, sizeof(lstr), "%u", nh->nh_label->label[0]); break; } vty_out(vty, "mpls lsp %u %s %s\n", lsp->ile.in_label, buf, lstr); } } list_delete(&slsp_list); return (zvrf->slsp_table->count ? 1 : 0); } /* * Add/update global label block. */ int zebra_mpls_label_block_add(struct zebra_vrf *zvrf, uint32_t start_label, uint32_t end_label) { zvrf->mpls_srgb.start_label = start_label; zvrf->mpls_srgb.end_label = end_label; /* Evaluate registered FECs to see if any get a label or not. */ fec_evaluate(zvrf); return 0; } /* * Delete global label block. */ int zebra_mpls_label_block_del(struct zebra_vrf *zvrf) { zvrf->mpls_srgb.start_label = MPLS_DEFAULT_MIN_SRGB_LABEL; zvrf->mpls_srgb.end_label = MPLS_DEFAULT_MAX_SRGB_LABEL; /* Process registered FECs to clear their local label, if needed. */ fec_evaluate(zvrf); return 0; } /* * Display MPLS global label block configuration (VTY command handler). */ int zebra_mpls_write_label_block_config(struct vty *vty, struct zebra_vrf *zvrf) { if (zvrf->mpls_srgb.start_label == 0) return 0; if ((zvrf->mpls_srgb.start_label != MPLS_DEFAULT_MIN_SRGB_LABEL) || (zvrf->mpls_srgb.end_label != MPLS_DEFAULT_MAX_SRGB_LABEL)) { vty_out(vty, "mpls label global-block %u %u\n", zvrf->mpls_srgb.start_label, zvrf->mpls_srgb.end_label); } return 1; } /* * Called when VRF becomes inactive, cleans up information but keeps * the table itself. */ void zebra_mpls_cleanup_tables(struct zebra_vrf *zvrf) { struct zebra_vrf *def_zvrf; afi_t afi; if (zvrf_id(zvrf) == VRF_DEFAULT) hash_iterate(zvrf->lsp_table, lsp_uninstall_from_kernel, NULL); else { /* * For other vrfs, we try to remove associated LSPs; we locate * the LSPs in the default vrf. */ def_zvrf = zebra_vrf_lookup_by_id(VRF_DEFAULT); /* At shutdown, the default may be gone already */ if (def_zvrf == NULL) return; for (afi = AFI_IP; afi < AFI_MAX; afi++) { if (zvrf->label[afi] != MPLS_LABEL_NONE) lsp_uninstall(def_zvrf, zvrf->label[afi]); } } } /* * When a vrf label is assigned and the client goes away * we should cleanup the vrf labels associated with * that zclient. */ void zebra_mpls_client_cleanup_vrf_label(uint8_t proto) { struct vrf *vrf; struct zebra_vrf *def_zvrf = zebra_vrf_lookup_by_id(VRF_DEFAULT); if (def_zvrf == NULL) return; RB_FOREACH (vrf, vrf_id_head, &vrfs_by_id) { struct zebra_vrf *zvrf = vrf->info; afi_t afi; if (!zvrf) continue; for (afi = AFI_IP; afi < AFI_MAX; afi++) { if (zvrf->label_proto[afi] == proto && zvrf->label[afi] != MPLS_LABEL_NONE) lsp_uninstall(def_zvrf, zvrf->label[afi]); /* * Cleanup data structures by fiat */ zvrf->label_proto[afi] = 0; zvrf->label[afi] = MPLS_LABEL_NONE; } } } static void lsp_table_free(void *p) { struct zebra_lsp *lsp = p; lsp_free_nhlfe(lsp); XFREE(MTYPE_LSP, lsp); } /* * Called upon process exiting, need to delete LSP forwarding * entries from the kernel. * NOTE: Currently supported only for default VRF. */ void zebra_mpls_close_tables(struct zebra_vrf *zvrf) { hash_iterate(zvrf->lsp_table, lsp_uninstall_from_kernel, NULL); hash_clean_and_free(&zvrf->lsp_table, lsp_table_free); hash_clean_and_free(&zvrf->slsp_table, lsp_table_free); route_table_finish(zvrf->fec_table[AFI_IP]); route_table_finish(zvrf->fec_table[AFI_IP6]); } /* * Allocate MPLS tables for this VRF and do other initialization. * NOTE: Currently supported only for default VRF. */ void zebra_mpls_init_tables(struct zebra_vrf *zvrf) { char buffer[80]; if (!zvrf) return; snprintf(buffer, sizeof(buffer), "ZEBRA SLSP table: %s", zvrf->vrf->name); zvrf->slsp_table = hash_create_size(8, label_hash, label_cmp, buffer); snprintf(buffer, sizeof(buffer), "ZEBRA LSP table: %s", zvrf->vrf->name); zvrf->lsp_table = hash_create_size(8, label_hash, label_cmp, buffer); zvrf->fec_table[AFI_IP] = route_table_init(); zvrf->fec_table[AFI_IP6] = route_table_init(); zvrf->mpls_flags = 0; zvrf->mpls_srgb.start_label = MPLS_DEFAULT_MIN_SRGB_LABEL; zvrf->mpls_srgb.end_label = MPLS_DEFAULT_MAX_SRGB_LABEL; } void zebra_mpls_turned_on(void) { if (!mpls_enabled) { mpls_processq_init(); mpls_enabled = true; hook_register(zserv_client_close, zebra_mpls_cleanup_fecs_for_client); hook_register(zserv_client_close, zebra_mpls_cleanup_zclient_labels); } } /* * Global MPLS initialization. */ void zebra_mpls_init(void) { mpls_enabled = false; mpls_pw_reach_strict = false; if (mpls_kernel_init() < 0) { flog_warn(EC_ZEBRA_MPLS_SUPPORT_DISABLED, "Disabling MPLS support (no kernel support)"); return; } zebra_mpls_turned_on(); } void zebra_mpls_terminate(void) { hook_unregister(zserv_client_close, zebra_mpls_cleanup_fecs_for_client); hook_unregister(zserv_client_close, zebra_mpls_cleanup_zclient_labels); }